H01J1/00	7	Details of electrodes, of magnetic control means, of screens, or of the mounting or spacing thereof, common to two or more basic types of discharge tubes or lamps (details of electron-optical or ion-optical arrangements H01J3/00)	H01J1/00	H01J1/00		168
H01J1/02	8	Main electrodes	H01J1/02	H01J1/02		112
H01J1/025	9	{Hollow cathodes}	H01J1/02	H01J1/02		89
H01J1/04	9	Liquid electrodes, e.g. liquid cathode	H01J1/04	H01J1/04		4
H01J1/05	10	characterised by material	H01J1/05	H01J1/05		8
H01J1/06	10	Containers for liquid-pool electrodes; Arrangement or mounting thereof	H01J1/06	H01J1/06		8
H01J1/08	10	Positioning or moving the cathode spot on the surface of a liquid-pool cathode	H01J1/08	H01J1/08		
H01J1/10	10	Cooling, heating, circulating, filtering, or controlling level of liquid in a liquid-pool electrode	H01J1/10	H01J1/10		6
H01J1/12	9	Cathodes having mercury or liquid alkali metal deposited on the cathode surface during operation of the tube	H01J1/12	H01J1/12		2
H01J1/13	9	Solid thermionic cathodes	H01J1/13	H01J1/13		221
H01J1/135	10	{Circuit arrangements therefor, e.g. for temperature control}	H01J1/13	H01J1/13		217
H01J1/14	10	characterised by the material	H01J1/14	H01J1/14		742
H01J1/142	11	with alkaline-earth metal oxides, or such oxides used in conjunction with reducing agents, as an emissive material	H01J1/142	H01J1/142		148
H01J1/144	11	with other metal oxides as an emissive material	H01J1/144	H01J1/144		55
H01J1/146	11	with metals or alloys as an emissive material	H01J1/146	H01J1/146		89
H01J1/148	11	with compounds having metallic conductive properties, e.g. lanthanum boride, as an emissive material	H01J1/148	H01J1/148		98
H01J1/15	10	Cathodes heated directly by an electric current	H01J1/15	H01J1/15		523
H01J1/16	11	characterised by the shape	H01J1/16	H01J1/16		294
H01J1/18	11	Supports; Vibration-damping arrangements	H01J1/18	H01J1/18		530
H01J1/20	10	Cathodes heated indirectly by an electric current; Cathodes heated by electron or ion bombardment	H01J1/20	H01J1/20		855
H01J1/22	11	Heaters	H01J1/22	H01J1/22		423
H01J1/24	11	Insulating layer or body located between heater and emissive material	H01J1/24	H01J1/24		118
H01J1/26	11	Supports for the emissive material	H01J1/26	H01J1/26		285
H01J1/28	11	Dispenser-type cathodes, e.g. L-cathode	H01J1/28	H01J1/28		646
H01J1/30	9	Cold cathodes, e.g. field-emissive cathode	H01J1/30	H01J1/30		1121
H01J1/304	10	Field-emissive cathodes	H01J1/304	H01J1/304		2024
H01J1/3042	11	{microengineered, e.g. Spindt-type}	H01J1/304	H01J1/304		550
H01J1/3044	12	{Point emitters}	H01J1/304	H01J1/304		295
H01J1/3046	12	{Edge emitters}	H01J1/304	H01J1/304		65
H01J1/3048	11	{Distributed particle emitters}	H01J1/304	H01J1/304		122
H01J1/308	10	Semiconductor cathodes, e.g. cathodes with PN junction layers	H01J1/308	H01J1/308		211
H01J1/312	10	having an electric field perpendicular to the surface, e.g. tunnel-effect cathodes of metal-insulator-metal [MIM] type {(H01J1/304- H01J1/308 take precedence)}	H01J1/312	H01J1/312		291
H01J1/316	10	having an electric field parallel to the surface, e.g. thin film cathodes	H01J1/316	H01J1/316		274
H01J1/32	9	Secondary-electron-emitting electrodes (H01J1/35 takes precedence)	H01J1/32	H01J1/32		240
H01J1/34	9	Photo-emissive cathodes (H01J1/35 takes precedence)	H01J1/34	H01J1/34		544
H01J1/35	9	Electrodes exhibiting both secondary emission and photo-emission	H01J1/35	H01J1/35		17
H01J1/36	9	Solid anodes; Solid auxiliary anodes for maintaining a discharge	H01J1/36	H01J1/36		62
H01J1/38	10	characterised by the material	H01J1/38	H01J1/38		20
H01J1/40	10	forming part of the envelope of the tube or lamp	H01J1/40	H01J1/40		7
H01J1/42	10	Cooling of anodes (cooling rotary anodes H01J1/44); Heating of anodes	H01J1/42	H01J1/42		27
H01J1/44	10	Rotary anodes; Arrangements for rotating anodes; Cooling rotary anodes	H01J1/44	H01J1/44		5
H01J1/46	8	Control electrodes, e.g. grid (for igniting arrangements H01J7/30); Auxiliary electrodes (auxiliary anodes for maintaining a discharge H01J1/36)	H01J1/46	H01J1/46		269
H01J1/48	9	characterised by the material	H01J1/48	H01J1/48		50
H01J1/50	8	Magnetic means for controlling the discharge	H01J1/50	H01J1/50		36
H01J1/52	8	Screens for shielding; Guides for influencing the discharge; Masks interposed in the electron stream	H01J1/52	H01J1/52		44
H01J1/53	8	Electrodes intimately associated with a screen on or from which an image or pattern is formed, picked-up, converted, or stored	H01J1/53	H01J1/53		40
H01J1/54	8	Screens on or from which an image or pattern is formed, picked-up, converted, or stored; Luminescent coatings on vessels	H01J1/54	H01J1/54		18
H01J1/56	9	acting as light valves by shutter operation, e.g. for eidophor	H01J1/56	H01J1/56		1
H01J1/58	9	acting by discolouration, e.g. halide screen	H01J1/58	H01J1/58		
H01J1/60	9	Incandescent screens	H01J1/60	H01J1/60		1
H01J1/62	9	Luminescent screens; Selection of materials for luminescent coatings on vessels	H01J1/62	H01J1/62		81
H01J1/63	10	characterised by the luminescent material	H01J1/63	H01J1/63		191
H01J1/64	10	characterised by the binder or adhesive for securing the luminescent material to its support	H01J1/64	H01J1/64		17
H01J1/66	10	Supports for luminescent material	H01J1/66	H01J1/66		14
H01J1/68	10	with superimposed luminescent layers	H01J1/68	H01J1/68		21
H01J1/70	10	with protective, conductive, or reflective layers	H01J1/70	H01J1/70		60
H01J1/72	10	with luminescent material discontinuously arranged, e.g. in dots or lines	H01J1/72	H01J1/72		28
H01J1/74	11	with adjacent dots or lines of different luminescent material	H01J1/74	H01J1/74		34
H01J1/76	10	provided with permanent marks or references	H01J1/76	H01J1/76		3
H01J1/78	9	Photoelectric screens; Charge-storage screens	H01J1/78	H01J1/78		10
H01J1/88	8	Mounting, supporting, spacing, or insulating of electrodes or of electrode assemblies	H01J1/88	H01J1/88		168
H01J1/90	9	Insulation between electrodes or supports within the vacuum space	H01J1/90	H01J1/90		44
H01J1/92	9	Mountings for the electrode assembly as a whole	H01J1/92	H01J1/92		20
H01J1/94	9	Mountings for individual electrodes	H01J1/94	H01J1/94		38
H01J1/96	9	Spacing members extending to the envelope	H01J1/96	H01J1/96		84
H01J1/98	10	without fixed connection between spacing member and envelope	H01J1/98	H01J1/98		
H01J3/00	7	Details of electron-optical or ion-optical arrangements common to two or more basic types of discharge tubes or lamps	H01J3/00	H01J3/00		57
H01J3/02	8	Electron guns	H01J3/02	H01J3/02		257
H01J3/021	9	{Electron guns using a field emission, photo emission, or secondary emission electron source}	H01J3/02	H01J3/02		511
H01J3/022	10	{with microengineered cathode, e.g. Spindt-type}	H01J3/02	H01J3/02		546
H01J3/023	9	{Electron guns using electron multiplication}	H01J3/02	H01J3/02		29
H01J3/024	9	{Electron guns using thermionic emission of cathode heated by electron or ion bombardment or by irradiation by other energetic beams, e.g. by laser}	H01J3/02	H01J3/02		80
H01J3/025	9	{Electron guns using a discharge in a gas or a vapour as electron source (gas-filled discharge tubes with gaseous cathodes H01J15/00)}	H01J3/02	H01J3/02		349
H01J3/026	9	{Eliminating deleterious effects due to thermal effects, electric or magnetic field (H01J3/021&#160;-&#160;H01J3/025 take precedence)}	H01J3/02	H01J3/02		73
H01J3/027	9	{Construction of the gun or parts thereof (H01J3/021&#160;-&#160;H01J3/025, H01J3/026 and H01J3/028 take precedence)}	H01J3/02	H01J3/02		353
H01J3/028	9	{Replacing parts of the gun; Relative adjustment (H01J3/021&#160;-&#160;H01J3/025 take precedence)}	H01J3/02	H01J3/02		60
H01J3/029	9	{Schematic arrangements for beam forming}	H01J3/02	H01J3/02		229
H01J3/04	8	Ion guns	H01J3/04	H01J3/04		71
H01J3/06	8	two or more guns being arranged in a single vacuum space, e.g. for plural-ray tubes (H01J3/07 takes precedence)	H01J3/06	H01J3/06		11
H01J3/07	8	Arrangements for controlling convergence of a plurality of beams	H01J3/07	H01J3/07		9
H01J3/08	8	Arrangements for controlling intensity of ray or beam (H01J3/02, H01J3/04 take precedence)	H01J3/08	H01J3/08		26
H01J3/10	8	Arrangements for centring ray or beam (H01J3/02, H01J3/04 take precedence)	H01J3/10	H01J3/10		12
H01J3/12	8	Arrangements for controlling cross-section of ray or beam; Arrangements for correcting aberration of beam, e.g. due to lenses (H01J3/02, H01J3/04 take precedence)	H01J3/12	H01J3/12		38
H01J3/14	8	Arrangements for focusing or reflecting ray or beam (H01J3/02, H01J3/04 take precedence)	H01J3/14	H01J3/14		88
H01J3/16	9	Mirrors	H01J3/16	H01J3/16		14
H01J3/18	9	Electrostatic lenses	H01J3/18	H01J3/18		52
H01J3/20	9	Magnetic lenses	H01J3/20	H01J3/20		22
H01J3/22	10	using electromagnetic means only	H01J3/22	H01J3/22		20
H01J3/24	10	using permanent magnets only	H01J3/24	H01J3/24		19
H01J3/26	8	Arrangements for deflecting ray or beam	H01J3/26	H01J3/26		44
H01J3/28	9	along one straight line or along two perpendicular straight lines	H01J3/28	H01J3/28		3
H01J3/30	10	by electric fields only	H01J3/30	H01J3/30		12
H01J3/32	10	by magnetic fields only	H01J3/32	H01J3/32		15
H01J3/34	9	along a circle, spiral, or rotating radial line	H01J3/34	H01J3/34		8
H01J3/36	8	Arrangements for controlling the ray or beam after passing the main deflection system, e.g. for post-acceleration or post-concentration	H01J3/36	H01J3/36		9
H01J3/38	8	Mounting, supporting, spacing, or insulating electron-optical or ion-optical arrangements	H01J3/38	H01J3/38		31
H01J3/40	8	Arrangements for removing or diverting unwanted particles, e.g. for negative ions or fringing electrons; Arrangements for velocity or mass selection	H01J3/40	H01J3/40		46
H01J5/00	7	Details relating to vessels or to leading-in conductors common to two or more basic types of discharge tubes or lamps	H01J5/00	H01J5/00		13
H01J5/02	8	Vessels; Containers; Shields associated therewith; Vacuum locks	H01J5/02	H01J5/02		227
H01J5/03	9	Arrangements for preventing or mitigating effects of implosion of vessels or containers	H01J5/03	H01J5/03		51
H01J5/04	9	Vessels or containers characterised by the material thereof	H01J5/04	H01J5/04		127
H01J5/06	9	Vessels or containers specially adapted for operation at high tension, e.g. by improved potential distribution over surface of vessel	H01J5/06	H01J5/06		176
H01J5/08	9	provided with coatings on the walls thereof; Selection of materials for the coatings (luminescent coatings H01J1/62)	H01J5/08	H01J5/08		274
H01J5/10	10	on internal surfaces	H01J5/10	H01J5/10		25
H01J5/12	9	Double-wall vessels or containers	H01J5/12	H01J5/12		214
H01J5/125	10	{with a gas tight space between both walls}	H01J5/12	H01J5/12		5
H01J5/14	9	Dismountable vessels or containers, e.g. for replacing cathode heater	H01J5/14	H01J5/14		5
H01J5/16	9	Optical or photographic arrangements structurally combined with the vessel	H01J5/16	H01J5/16		62
H01J5/18	9	Windows permeable to X-rays, gamma-rays, or particles	H01J5/18	H01J5/18		242
H01J5/20	8	Seals between parts of vessels	H01J5/20	H01J5/20		324
H01J5/22	9	Vacuum-tight joints between parts of vessel	H01J5/22	H01J5/22		37
H01J5/24	10	between insulating parts of vessel	H01J5/24	H01J5/24		649
H01J5/26	10	between insulating and conductive parts of vessel	H01J5/26	H01J5/26		489
H01J5/28	10	between conductive parts of vessel	H01J5/28	H01J5/28		150
H01J5/30	10	using packing-material, e.g. sealing-liquid or elastic insert	H01J5/30	H01J5/30		186
H01J5/32	8	Seals for leading-in conductors	H01J5/32	H01J5/32		694
H01J5/34	9	for an individual conductor (pinched-stem seals H01J5/38; end-disc seals H01J5/40; annular seals H01J5/44)	H01J5/34	H01J5/34		26
H01J5/36	10	using intermediate part	H01J5/36	H01J5/36		18
H01J5/38	9	Pinched-stem or analogous seals	H01J5/38	H01J5/38		51
H01J5/40	9	End-disc seals, e.g. flat header	H01J5/40	H01J5/40		200
H01J5/42	10	using intermediate part	H01J5/42	H01J5/42		414
H01J5/44	9	Annular seals disposed between the ends of the vessel	H01J5/44	H01J5/44		90
H01J5/46	8	Leading-in conductors	H01J5/46	H01J5/46		222
H01J5/48	8	Means forming part of the tube or lamp for the purpose of supporting it	H01J5/48	H01J5/48		351
H01J5/50	8	Means forming part of the tube or lamps for the purpose of providing electrical connection to it	H01J5/50	H01J5/50		686
H01J5/52	9	directly applied to or forming part of the vessel	H01J5/52	H01J5/52		150
H01J5/54	9	supported by a separate part, e.g. base	H01J5/54	H01J5/54		779
H01J5/56	10	Shape of the separate part	H01J5/56	H01J5/56		365
H01J5/565	11	{Bases for circular lamps}	H01J5/56	H01J5/56		48
H01J5/58	10	Means for fastening the separate part to the vessel, e.g. by cement	H01J5/58	H01J5/58		177
H01J5/60	11	for fastening by mechanical means	H01J5/60	H01J5/60		206
H01J5/62	10	Connection of wires protruding from the vessel to connectors carried by the separate part	H01J5/62	H01J5/62		313
H01J7/00	7	Details not provided for in the preceding groups and common to two or more basic types of discharge tubes or lamps	H01J7/00	H01J7/00		18
H01J7/02	8	Selection of substances for gas fillings; Specified operating pressure or temperature	H01J7/02	H01J7/02		10
H01J7/04	9	having one or more carbon compounds as the principal constituent	H01J7/04	H01J7/04		
H01J7/06	9	having helium, argon, neon, krypton, or xenon as the principal constituent	H01J7/06	H01J7/06		11
H01J7/08	9	having a metallic vapour as the principal constituent	H01J7/08	H01J7/08		
H01J7/10	10	mercury vapour	H01J7/10	H01J7/10		6
H01J7/12	10	vapour of an alkali metal	H01J7/12	H01J7/12		3
H01J7/14	8	Means for obtaining or maintaining the desired pressure within the vessel	H01J7/14	H01J7/14		22
H01J7/16	9	Means for permitting pumping during operation of the tube or lamp	H01J7/16	H01J7/16		18
H01J7/18	9	Means for absorbing or adsorbing gas, e.g. by gettering	H01J7/18	H01J7/18		383
H01J7/183	10	{Composition or manufacture of getters}	H01J7/18	H01J7/18		370
H01J7/186	10	{Getter supports}	H01J7/18	H01J7/18		477
H01J7/20	9	Means for producing, introducing, or replenishing gas or vapour during operation of the tube or lamp	H01J7/20	H01J7/20		42
H01J7/22	9	Tubulations therefor, e.g. for exhausting; Closures therefor	H01J7/22	H01J7/22		54
H01J7/24	8	Cooling arrangements; Heating arrangements; Means for circulating gas or vapour within the discharge space	H01J7/24	H01J7/24		294
H01J7/26	9	by flow of fluid through passages associated with tube or lamp	H01J7/26	H01J7/26		29
H01J7/28	9	by latent heat or evaporation of cooling liquid	H01J7/28	H01J7/28		9
H01J7/30	8	Igniting arrangements	H01J7/30	H01J7/30		20
H01J7/32	9	having resistive or capacitative igniter	H01J7/32	H01J7/32		5
H01J7/34	10	having resistive igniter only	H01J7/34	H01J7/34		4
H01J7/36	9	Igniting by movement of a solid electrode	H01J7/36	H01J7/36		
H01J7/38	9	Igniting by movement of vessel as a whole, e.g. tilting	H01J7/38	H01J7/38		
H01J7/40	9	Igniting by associated radioactive materials or fillings	H01J7/40	H01J7/40		4
H01J7/42	8	Means structurally associated with the tube or lamp for indicating defects or previous use	H01J7/42	H01J7/42		47
H01J7/44	8	One or more circuit elements structurally associated with the tube or lamp	H01J7/44	H01J7/44		100
H01J7/46	9	Structurally associated resonator having distributed inductance and capacitance	H01J7/46	H01J7/46		20
H01J9/00	7	Apparatus or processes specially adapted for the manufacture {, installation, removal, maintenance} of electric discharge tubes, discharge lamps, or parts thereof; Recovery of material from discharge tubes or lamps	H01J9/00	H01J9/00		604
H01J9/003	8	{Auxiliary devices for installing or removing discharge tubes or lamps}	H01J9/00	H01J9/00		325
H01J9/006	9	{for fluorescent lamps}	H01J9/00	H01J9/00		230
H01J9/02	8	Manufacture of electrodes or electrode systems	H01J9/02	H01J9/02		2914
H01J9/022	9	{of cold cathodes}	H01J9/02	H01J9/02		319
H01J9/025	10	{of field emission cathodes}	H01J9/02	H01J9/02		2737
H01J9/027	10	{of thin film cathodes}	H01J9/02	H01J9/02		253
H01J9/04	9	of thermionic cathodes	H01J9/04	H01J9/04		931
H01J9/042	10	{Manufacture, activation of the emissive part}	H01J9/04	H01J9/04		929
H01J9/045	11	{Activation of assembled cathode}	H01J9/04	H01J9/04		114
H01J9/047	11	{Cathodes having impregnated bodies (H01J9/045 takes precedence)}	H01J9/04	H01J9/04		198
H01J9/06	10	Machines therefor	H01J9/06	H01J9/06		149
H01J9/08	9	Manufacture of heaters for indirectly-heated cathodes	H01J9/08	H01J9/08		210
H01J9/10	10	Machines therefor	H01J9/10	H01J9/10		66
H01J9/12	9	of photo-emissive cathodes; of secondary-emission electrodes	H01J9/12	H01J9/12		574
H01J9/125	10	{of secondary emission electrodes}	H01J9/12	H01J9/12		275
H01J9/14	9	of non-emitting electrodes	H01J9/14	H01J9/14		597
H01J9/142	10	{of shadow-masks for colour television tubes}	H01J9/14	H01J9/14		951
H01J9/144	11	{Mask treatment related to the process of dot deposition during manufacture of luminescent screen}	H01J9/14	H01J9/14		54
H01J9/146	11	{Surface treatment, e.g. blackening, coating (H01J9/144 takes precedence)}	H01J9/14	H01J9/14		187
H01J9/148	10	{of electron emission flat panels, e.g. gate electrodes, focusing electrodes or anode electrodes}	H01J9/14	H01J9/14		285
H01J9/16	10	Machines for making wire grids	H01J9/16	H01J9/16		15
H01J9/18	9	Assembling together the component parts of electrode systems	H01J9/18	H01J9/18		853
H01J9/185	10	{of flat panel display devices, e.g. by using spacers}	H01J9/18	H01J9/18		311
H01J9/20	8	Manufacture of screens on or from which an image or pattern is formed, picked up, converted or stored; Applying coatings to the vessel	H01J9/20	H01J9/20		1762
H01J9/205	9	{Applying optical coatings or shielding coatings to the vessel of flat panel displays, e.g. applying filter layers, electromagnetic interference shielding layers, anti-reflection coatings or anti-glare coatings}	H01J9/20	H01J9/20		299
H01J9/22	9	Applying luminescent coatings	H01J9/22	H01J9/22		827
H01J9/221	10	{in continuous layers}	H01J9/22	H01J9/22		322
H01J9/222	11	{constituted by coated granules emitting light of different colour}	H01J9/22	H01J9/22		11
H01J9/223	11	{by uniformly dispersing of liquid}	H01J9/22	H01J9/22		398
H01J9/224	11	{by precipitation}	H01J9/22	H01J9/22		61
H01J9/225	11	{by electrostatic or electrophoretic processes}	H01J9/22	H01J9/22		147
H01J9/227	10	with luminescent material discontinuously arranged, e.g. in dots or lines	H01J9/227	H01J9/227		681
H01J9/2271	11	{by photographic processes (final treatment of shadow-mask prior to or after dot deposition H01J9/144)}	H01J9/227	H01J9/227		691
H01J9/2272	12	{Devices for carrying out the processes, e.g. light houses}	H01J9/227	H01J9/227		464
H01J9/2273	13	{Auxiliary lenses and filters}	H01J9/227	H01J9/227		176
H01J9/2274	13	{Light sources particularly adapted therefor}	H01J9/227	H01J9/227		97
H01J9/2275	11	{including the exposition of a substance responsive to a particular radiation}	H01J9/227	H01J9/227		26
H01J9/2276	11	{Development of latent electrostatic images (per seG03G15/06)}	H01J9/227	H01J9/227		199
H01J9/2277	11	{by other processes, e.g. serigraphy, decalcomania}	H01J9/227	H01J9/227		152
H01J9/2278	11	{Application of light absorbing material, e.g. between the luminescent areas}	H01J9/227	H01J9/227		392
H01J9/233	9	Manufacture of photoelectric screens or charge-storage screens	H01J9/233	H01J9/233		456
H01J9/236	8	Manufacture of magnetic deflecting devices for cathode-ray tubes	H01J9/236	H01J9/236		588
H01J9/24	8	Manufacture or joining of vessels, leading-in conductors or bases	H01J9/24	H01J9/24		1535
H01J9/241	9	{the vessel being for a flat panel display (H01J9/261 takes precedence; flat discharge lamps H01J9/248)}	H01J9/24	H01J9/24		744
H01J9/242	10	{Spacers between faceplate and backplate}	H01J9/24	H01J9/24		916
H01J9/244	9	{specially adapted for cathode ray tubes (H01J9/241, H01J9/26 take precedence)}	H01J9/24	H01J9/24		864
H01J9/245	9	{specially adapted for gas discharge tubes or lamps (H01J9/241, H01J9/26 take precedence)}	H01J9/24	H01J9/24		86
H01J9/247	10	{specially adapted for gas-discharge lamps}	H01J9/24	H01J9/24		943
H01J9/248	11	{the vessel being flat}	H01J9/24	H01J9/24		96
H01J9/26	9	Sealing together parts of vessels	H01J9/26	H01J9/26		347
H01J9/261	10	{the vessel being for a flat panel display (for flat discharge lamps H01J9/268)}	H01J9/26	H01J9/26		816
H01J9/263	10	{specially adapted for cathode-ray tubes (H01J9/261 takes precedence)}	H01J9/26	H01J9/26		557
H01J9/265	10	{specially adapted for gas-discharge tubes or lamps (H01J9/261 takes precedence)}	H01J9/26	H01J9/26		45
H01J9/266	11	{specially adapted for gas-discharge lamps}	H01J9/26	H01J9/26		297
H01J9/268	12	{the vessel being flat}	H01J9/26	H01J9/26		44
H01J9/28	9	Manufacture of leading-in conductors	H01J9/28	H01J9/28		334
H01J9/30	9	Manufacture of bases	H01J9/30	H01J9/30		245
H01J9/32	9	Sealing leading-in conductors	H01J9/32	H01J9/32		529
H01J9/323	10	{Sealing leading-in conductors into a discharge lamp or a gas-filled discharge device}	H01J9/32	H01J9/32		253
H01J9/326	11	{making pinched-stem or analogous seals}	H01J9/32	H01J9/32		201
H01J9/34	9	Joining base to vessel	H01J9/34	H01J9/34		322
H01J9/36	9	Joining connectors to internal electrode system	H01J9/36	H01J9/36		85
H01J9/38	8	Exhausting, degassing, filling, or cleaning vessels	H01J9/38	H01J9/38		1551
H01J9/385	9	Exhausting vessels	H01J9/385	H01J9/385		1002
H01J9/39	9	Degassing vessels	H01J9/39	H01J9/39		231
H01J9/395	9	Filling vessels	H01J9/395	H01J9/395		930
H01J9/40	8	Closing vessels	H01J9/40	H01J9/40		646
H01J9/42	8	Measurement or testing during manufacture	H01J9/42	H01J9/42		1854
H01J9/44	8	Factory adjustment of completed discharge tubes or lamps to comply with desired tolerances	H01J9/44	H01J9/44		438
H01J9/445	9	{Aging of tubes or lamps, e.g. by "spot knocking" (cathode activation H01J9/045)}	H01J9/44	H01J9/44		291
H01J9/46	8	Machines having sequentially arranged operating stations	H01J9/46	H01J9/46		743
H01J9/48	9	with automatic transfer of workpieces between operating stations	H01J9/48	H01J9/48		612
H01J9/50	8	Repairing or regenerating used or defective discharge tubes or lamps	H01J9/50	H01J9/50		362
H01J9/505	9	{Regeneration of cathodes}	H01J9/50	H01J9/50		55
H01J9/52	8	Recovery of material from discharge tubes or lamps (H01J9/50 takes precedence)	H01J9/52	H01J9/52		304
H01J11/00	7	Gas-filled discharge tubes with alternating current induction of the discharge, e.g. alternating current plasma display panels [AC-PDP] (circuits or methods for driving PDPs G09G3/28); Gas-filled discharge tubes without any main electrode inside the vessel; Gas-filled discharge tubes with at least one main electrode outside the vessel<br><br><u>NOTE</u><br><br>When classifying in this group, classification is made in all appropriate places. <br>In this group, the following term is used with the meaning indicated: <br>"main electrode" means any of a sustain electrode, scan electrode or address electrode. 	H01J11/00	H01J11/00		346
H01J11/10	8	AC-PDPs with at least one main electrode being out of contact with the plasma	H01J11/10	H01J11/10		584
H01J11/12	9	with main electrodes provided on both sides of the discharge space	H01J11/12	H01J11/12		4599
H01J11/14	9	with main electrodes provided only on one side of the discharge space	H01J11/14	H01J11/14		165
H01J11/16	9	with main electrodes provided inside or on the side face of the spacers	H01J11/16	H01J11/16		560
H01J11/18	9	containing a plurality of independent closed structures for containing the gas, e.g. plasma tube array [PTA] display panels	H01J11/18	H01J11/18		189
H01J11/20	8	Constructional details	H01J11/20	H01J11/20		331
H01J11/22	9	Electrodes, e.g. special shape, material or configuration	H01J11/22	H01J11/22		939
H01J11/24	10	Sustain electrodes or scan electrodes	H01J11/24	H01J11/24		2406
H01J11/26	10	Address electrodes	H01J11/26	H01J11/26		937
H01J11/28	10	Auxiliary electrodes, e.g. priming electrodes or trigger electrodes	H01J11/28	H01J11/28		488
H01J11/30	10	Floating electrodes	H01J11/30	H01J11/30		124
H01J11/32	10	Disposition of the electrodes	H01J11/32	H01J11/32		1545
H01J11/34	9	Vessels, containers or parts thereof, e.g. substrates	H01J11/34	H01J11/34		2047
H01J11/36	10	Spacers, barriers, ribs, partitions or the like	H01J11/36	H01J11/36		2733
H01J11/38	10	Dielectric or insulating layers	H01J11/38	H01J11/38		1818
H01J11/40	10	Layers for protecting or enhancing the electron emission, e.g. MgO layers	H01J11/40	H01J11/40		1228
H01J11/42	10	Fluorescent layers	H01J11/42	H01J11/42		1311
H01J11/44	10	Optical arrangements or shielding arrangements, e.g. filters, black matrices, light reflecting means or electromagnetic shielding means	H01J11/44	H01J11/44		2132
H01J11/46	9	Connecting or feeding means, e.g. leading-in conductors	H01J11/46	H01J11/46		1021
H01J11/48	9	Sealing, e.g. seals specially adapted for leading-in conductors	H01J11/48	H01J11/48		501
H01J11/50	9	Filling, e.g. selection of gas mixture	H01J11/50	H01J11/50		285
H01J11/52	9	Means for absorbing or adsorbing the gas mixture, e.g. by gettering	H01J11/52	H01J11/52		66
H01J11/54	9	Means for exhausting the gas	H01J11/54	H01J11/54		428
H01J13/00	7	Discharge tubes with liquid-pool cathodes, e.g. metal-vapour rectifying tubes	H01J13/00	H01J13/00		210
H01J13/02	8	Details	H01J13/02	H01J13/02		316
H01J13/04	9	Main electrodes; Auxiliary anodes	H01J13/04	H01J13/04		97
H01J13/06	10	Cathodes	H01J13/06	H01J13/06		94
H01J13/08	11	characterised by the material	H01J13/08	H01J13/08		68
H01J13/10	11	Containers for the liquid pool; Arrangements or mounting thereof	H01J13/10	H01J13/10		166
H01J13/12	11	Positioning or moving the cathode spot on the surface of the pool	H01J13/12	H01J13/12		139
H01J13/14	11	Cooling, heating, circulating, filtering, or controlling level of the liquid	H01J13/14	H01J13/14		199
H01J13/16	10	Anodes; Auxiliary anodes for maintaining the discharge	H01J13/16	H01J13/16		335
H01J13/18	11	Cooling or heating of anodes	H01J13/18	H01J13/18		91
H01J13/20	9	Control electrodes, e.g. grid (for igniting arrangements H01J13/34)	H01J13/20	H01J13/20		301
H01J13/22	9	Screens, e.g. for preventing or eliminating arcing-back	H01J13/22	H01J13/22		139
H01J13/24	9	Vessels; Containers	H01J13/24	H01J13/24		55
H01J13/242	10	{characterised by the material}	H01J13/24	H01J13/24		
H01J13/244	10	{characterised by the shape}	H01J13/24	H01J13/24		2
H01J13/246	10	{Treatment of, or coating on interior parts of vessel}	H01J13/24	H01J13/24		
H01J13/248	10	{Envelope means outside vessel, i.e. screens, reflectors, filters}	H01J13/24	H01J13/24		
H01J13/26	9	Seals between parts of vessels; Seals for leading-in conductors; Leading-in conductors	H01J13/26	H01J13/26		232
H01J13/263	10	{Leading-in conductors to the liquid electrode}	H01J13/26	H01J13/26		
H01J13/266	10	{Leading-in conductors to the anode}	H01J13/26	H01J13/26		
H01J13/28	9	Selection of substances for gas filling; Means for obtaining the desired pressure within the tube	H01J13/28	H01J13/28		218
H01J13/30	10	Means for permitting pumping during operation of the tube	H01J13/30	H01J13/30		4
H01J13/32	9	Cooling arrangements; Heating arrangements (for cathodes H01J13/14; for anodes H01J13/18)	H01J13/32	H01J13/32		530
H01J13/34	9	Igniting arrangements	H01J13/34	H01J13/34		361
H01J13/36	10	having resistive or capacitative igniter	H01J13/36	H01J13/36		1
H01J13/38	11	having resistive igniter only	H01J13/38	H01J13/38		190
H01J13/40	10	Igniting by movement of a solid electrode	H01J13/40	H01J13/40		2
H01J13/405	11	{Interrupting contact with liquid cathode}	H01J13/40	H01J13/40		
H01J13/42	10	Igniting by movement of vessel as a whole, e.g. tilting	H01J13/42	H01J13/42		60
H01J13/44	9	Devices for preventing or eliminating arcing-back	H01J13/44	H01J13/44		5
H01J13/46	9	One or more circuit elements structurally associated with the tube	H01J13/46	H01J13/46		6
H01J13/48	9	Circuit arrangements not adapted to a particular application of the tube and not otherwise provided for	H01J13/48	H01J13/48		816
H01J13/50	8	Tubes having a single main anode	H01J13/50	H01J13/50		363
H01J13/52	9	with control by one or more intermediate control electrodes	H01J13/52	H01J13/52		5
H01J13/54	9	with control by igniter, e.g. single-anode ignitron	H01J13/54	H01J13/54		16
H01J13/56	8	Tubes having two or more main anodes	H01J13/56	H01J13/56		49
H01J13/58	9	with control by one or more intermediate control electrodes	H01J13/58	H01J13/58		
H01J15/00	7	Gas-filled discharge tubes with gaseous cathodes, e.g. plasma cathode	H01J15/00	H01J15/00		8
H01J15/02	8	Details, e.g. electrode, gas filling, shape of vessel	H01J15/02	H01J15/02		11
H01J15/04	9	Circuit arrangements not adapted to a particular application of the tube and not otherwise provided for	H01J15/04	H01J15/04		1
H01J17/00	7	Gas-filled discharge tubes with solid cathode (H01J25/00, H01J27/00, H01J31/00 - H01J41/00{, H01J11/00} take precedence; gas filled spark gaps H01T; Marx converters H02M7/26)	H01J17/00	H01J17/00		752
H01J17/005	8	{specially adapted as noise generators (electronic circuits for generation of noise currents or voltages H03B29/00)}	H01J17/00	H01J17/00		25
H01J17/02	8	Details	H01J17/02	H01J17/02		36
H01J17/04	9	Electrodes; Screens	H01J17/04	H01J17/04		1374
H01J17/06	10	Cathodes	H01J17/06	H01J17/06		253
H01J17/063	11	{Indirectly heated cathodes, e.g. by the discharge itself}	H01J17/06	H01J17/06		61
H01J17/066	11	{Cold cathodes}	H01J17/06	H01J17/06		641
H01J17/08	11	having mercury or liquid alkali metal deposited on the cathode surface during operation of the tube	H01J17/08	H01J17/08		3
H01J17/10	10	Anodes	H01J17/10	H01J17/10		48
H01J17/12	10	Control electrodes	H01J17/12	H01J17/12		73
H01J17/14	9	Magnetic means for controlling the discharge	H01J17/14	H01J17/14		362
H01J17/16	9	Vessels; Containers	H01J17/16	H01J17/16		448
H01J17/18	9	Seals between parts of vessels; Seals for leading-in conductors; Leading-in conductors	H01J17/18	H01J17/18		76
H01J17/183	10	{Seals between parts of vessel}	H01J17/18	H01J17/18		39
H01J17/186	10	{Seals between leading-in conductors and vessel}	H01J17/18	H01J17/18		10
H01J17/20	9	Selection of substances for gas fillings; Specified operating pressures or temperatures	H01J17/20	H01J17/20		168
H01J17/22	9	Means for obtaining or maintaining the desired pressure within the tube	H01J17/22	H01J17/22		83
H01J17/24	10	Means for absorbing or adsorbing gas, e.g. by gettering	H01J17/24	H01J17/24		77
H01J17/26	10	Means for producing, introducing, or replenishing gas or vapour during operation of the tube	H01J17/26	H01J17/26		155
H01J17/28	9	Cooling arrangements	H01J17/28	H01J17/28		442
H01J17/30	9	Igniting arrangements	H01J17/30	H01J17/30		240
H01J17/32	10	Igniting by associated radioactive materials or fillings	H01J17/32	H01J17/32		57
H01J17/325	11	{Current stabilising tubes, e.g. curpistors}	H01J17/32	H01J17/32		3
H01J17/34	9	One or more circuit elements structurally associated with the tube	H01J17/34	H01J17/34		46
H01J17/36	9	Circuit arrangements not adapted to a particular application of the tube and not otherwise provided for	H01J17/36	H01J17/36		64
H01J17/38	8	Cold-cathode tubes	H01J17/38	H01J17/38		159
H01J17/40	9	with one cathode and one anode, e.g. glow tubes, tuning-indicator glow tubes, voltage-stabiliser tubes, voltage-indicator tubes, (cathode-glow lamps H01J61/04)	H01J17/40	H01J17/40		508
H01J17/42	10	having one or more probe electrodes, e.g. for potential dividing	H01J17/42	H01J17/42		9
H01J17/44	10	having one or more control electrodes	H01J17/44	H01J17/44		261
H01J17/46	11	for preventing and then permitting ignition but thereafter having no control	H01J17/46	H01J17/46		37
H01J17/48	9	with more than one cathode or anode, e.g. sequence-discharge tube, counting tube, dekatron	H01J17/48	H01J17/48		403
H01J17/485	10	{Plasma addressed liquid crystal displays [PALC]}	H01J17/48	H01J17/48		126
H01J17/49	10	Display panels, e.g. with crossed electrodes {, e.g. making use of direct current (display panels making use of alternating current H01J11/00)}	H01J17/49	H01J17/49		897
H01J17/491	11	{with electrodes arranged side by side and substantially in the same plane, e.g. for displaying alphanumeric characters}	H01J17/49	H01J17/49		270
H01J17/492	11	{with crossed electrodes}	H01J17/49	H01J17/49		367
H01J17/494	12	{using sequential transfer of the discharges, e.g. of the self-scan type (addressing circuits therefor G09G3/29)}	H01J17/49	H01J17/49		169
H01J17/495	13	{display panels using sequential transfer of the discharge along dielectric storage elements}	H01J17/49	H01J17/49		19
H01J17/497	12	{for several colours}	H01J17/49	H01J17/49		51
H01J17/498	11	{with a gas discharge space and a post acceleration space for electrons}	H01J17/49	H01J17/49		91
H01J17/50	8	Thermionic-cathode tubes	H01J17/50	H01J17/50		18
H01J17/52	9	with one cathode and one anode	H01J17/52	H01J17/52		70
H01J17/54	10	having one or more control electrodes	H01J17/54	H01J17/54		101
H01J17/56	11	for preventing and then permitting ignition, but thereafter having no control	H01J17/56	H01J17/56		284
H01J17/58	9	with more than one cathode or anode	H01J17/58	H01J17/58		48
H01J17/60	10	the discharge paths priming each other in a predetermined sequence, e.g. counting tube	H01J17/60	H01J17/60		2
H01J17/62	10	with independent discharge paths controlled by intermediate electrodes, e.g. polyphase rectifier	H01J17/62	H01J17/62		2
H01J17/64	8	Tubes specially designed for switching or modulating in a waveguide, e.g. TR box	H01J17/64	H01J17/64		10
H01J19/00	7	Details of vacuum tubes of the types covered by group H01J21/00	H01J19/00	H01J19/00		1164
H01J19/02	8	Electron-emitting electrodes; Cathodes	H01J19/02	H01J19/02		340
H01J19/04	9	Thermionic cathodes	H01J19/04	H01J19/04		15
H01J19/06	10	characterised by the material	H01J19/06	H01J19/06		12
H01J19/062	11	with alkaline-earth metal oxides, or such oxides used in conjunction with reducing agents, as an emissive material	H01J19/062	H01J19/062		4
H01J19/064	11	with other metal oxides as an emissive material	H01J19/064	H01J19/064		1
H01J19/066	11	with metals or alloys as an emissive material	H01J19/066	H01J19/066		3
H01J19/068	11	with compounds having metallic conductive properties, e.g. lanthanum boride, as an emissive material	H01J19/068	H01J19/068		2
H01J19/08	10	Cathodes heated directly by an electric current	H01J19/08	H01J19/08		10
H01J19/10	10	characterised by the shape	H01J19/10	H01J19/10		7
H01J19/12	11	Supports; Vibration-damping arrangements	H01J19/12	H01J19/12		8
H01J19/14	10	Cathodes heated indirectly by an electric current; Cathodes heated by electron or ion bombardment	H01J19/14	H01J19/14		14
H01J19/16	11	Heaters	H01J19/16	H01J19/16		21
H01J19/18	11	Insulating layer or body located between heater and emissive material	H01J19/18	H01J19/18		4
H01J19/20	11	Supports for the emissive material	H01J19/20	H01J19/20		1
H01J19/22	11	Dispenser-type cathodes, e.g. L-cathode	H01J19/22	H01J19/22		1
H01J19/24	9	Cold cathodes, e.g. field-emissive cathode	H01J19/24	H01J19/24		99
H01J19/28	8	Non-electron-emitting electrodes; Screens	H01J19/28	H01J19/28		381
H01J19/30	9	characterised by the material	H01J19/30	H01J19/30		490
H01J19/32	9	Anodes	H01J19/32	H01J19/32		29
H01J19/34	10	forming part of the envelope	H01J19/34	H01J19/34		378
H01J19/36	10	Cooling of anodes	H01J19/36	H01J19/36		693
H01J19/38	9	Control electrodes, e.g. grid	H01J19/38	H01J19/38		579
H01J19/40	9	Screens for shielding	H01J19/40	H01J19/40		153
H01J19/42	8	Mounting, supporting, spacing, or insulating of electrodes or of electrode assemblies	H01J19/42	H01J19/42		1193
H01J19/44	9	Insulation between electrodes or supports within the vacuum space	H01J19/44	H01J19/44		203
H01J19/46	9	Mountings for the electrode assembly as a whole	H01J19/46	H01J19/46		314
H01J19/48	9	Mountings for individual electrodes	H01J19/48	H01J19/48		44
H01J19/50	9	Spacing members extending to the envelope	H01J19/50	H01J19/50		260
H01J19/52	10	without fixed connection between spacing member and envelope	H01J19/52	H01J19/52		136
H01J19/54	8	Vessels; Containers; Shields associated therewith	H01J19/54	H01J19/54		37
H01J19/56	9	characterised by the material of the vessel or container	H01J19/56	H01J19/56		9
H01J19/57	9	provided with coatings on the walls thereof; Selection of materials for the coatings	H01J19/57	H01J19/57		7
H01J19/58	8	Seals between parts of vessels	H01J19/58	H01J19/58		10
H01J19/60	8	Seals for leading-in conductors	H01J19/60	H01J19/60		6
H01J19/62	8	Leading-in conductors	H01J19/62	H01J19/62		28
H01J19/64	8	Means forming part of the tube for the purpose supporting it	H01J19/64	H01J19/64		4
H01J19/66	8	Means forming part of the tube for the purpose of providing electrical connection to it {(H01J5/46 - H01J5/62 take precedence)}	H01J19/66	H01J19/66		19
H01J19/68	8	Specified gas introduced into the tube at low pressure, e.g. for reducing or influencing space charge	H01J19/68	H01J19/68		115
H01J19/70	8	Means for obtaining or maintaining the vacuum, e.g. by gettering	H01J19/70	H01J19/70		17
H01J19/72	9	Tubulations therefor, e.g. for exhausting; Closures therefor	H01J19/72	H01J19/72		
H01J19/74	8	Cooling arrangements (cooling of anodes H01J19/36)	H01J19/74	H01J19/74		171
H01J19/76	8	Means structurally associated with the tube for indicating defects or previous use	H01J19/76	H01J19/76		2
H01J19/78	8	One or more circuit elements structurally associated with the tube	H01J19/78	H01J19/78		111
H01J19/80	9	Structurally associated resonator having distributed inductance and capacitance	H01J19/80	H01J19/80		272
H01J19/82	8	Circuit arrangements not adapted to a particular application of the tube and not otherwise provided for	H01J19/82	H01J19/82		122
H01J21/00	7	Vacuum tubes (H01J25/00, H01J31/00 - H01J40/00, H01J43/00, H01J47/00, H01J49/00 take precedence; details of vacuum tubes H01J19/00)	H01J21/00	H01J21/00		75
H01J21/02	8	Tubes with a single discharge path	H01J21/02	H01J21/02		828
H01J21/04	9	without control means, i.e. diodes	H01J21/04	H01J21/04		54
H01J21/06	9	having electrostatic control means only	H01J21/06	H01J21/06		20
H01J21/065	10	{Devices for short wave tubes}	H01J21/06	H01J21/06		439
H01J21/08	10	with movable electrode or electrodes	H01J21/08	H01J21/08		178
H01J21/10	10	with one or more immovable internal control electrodes, e.g. triode, pentode, octode	H01J21/10	H01J21/10		121
H01J21/105	11	{with microengineered cathode and control electrodes, e.g. Spindt-type}	H01J21/10	H01J21/10		141
H01J21/12	11	Tubes with variable amplification factor	H01J21/12	H01J21/12		95
H01J21/14	11	Tubes with means for concentrating the electron stream, e.g. beam tetrode	H01J21/14	H01J21/14		280
H01J21/16	10	with external electrostatic control means and with or without internal control electrodes	H01J21/16	H01J21/16		46
H01J21/18	9	having magnetic control means; having both magnetic and electrostatic control means	H01J21/18	H01J21/18		263
H01J21/20	8	Tubes with more than one discharge path; Multiple tubes, e.g. double diode, triode-hexode	H01J21/20	H01J21/20		562
H01J21/22	9	with movable electrode or electrodes	H01J21/22	H01J21/22		2
H01J21/24	9	with variable amplification factor	H01J21/24	H01J21/24		2
H01J21/26	9	with means for concentrating the electron stream	H01J21/26	H01J21/26		8
H01J21/34	8	Tubes with electrode system arranged or dimensioned so as to eliminate transit-time effect (with flat electrodes H01J21/36)	H01J21/34	H01J21/34		2
H01J21/36	8	Tubes with flat electrodes, e.g. disc electrode	H01J21/36	H01J21/36		510
H01J23/00	7	Details of transit-time tubes of the types covered by group H01J25/00	H01J23/00	H01J23/00		269
H01J23/005	8	{Cooling methods or arrangements (H01J23/033 takes precedence)}	H01J23/00	H01J23/00		369
H01J23/02	8	Electrodes; Magnetic control means; Screens (associated with resonator or delay system H01J23/16)	H01J23/02	H01J23/02		251
H01J23/027	9	Collectors	H01J23/027	H01J23/027		248
H01J23/0275	10	{Multistage collectors}	H01J23/027	H01J23/027		126
H01J23/033	10	Collector cooling devices	H01J23/033	H01J23/033		169
H01J23/04	9	Cathodes	H01J23/04	H01J23/04		332
H01J23/05	10	having a cylindrical emissive surface, e.g. cathodes for magnetrons	H01J23/05	H01J23/05		532
H01J23/06	9	Electron or ion guns	H01J23/06	H01J23/06		292
H01J23/065	10	producing a solid cylindrical beam (H01J23/075 takes precedence)	H01J23/065	H01J23/065		186
H01J23/07	10	producing a hollow cylindrical beam (H01J23/075 takes precedence)	H01J23/07	H01J23/07		30
H01J23/075	10	Magnetron injection guns	H01J23/075	H01J23/075		66
H01J23/08	9	Focusing arrangements, e.g. for concentrating stream of electrons, for preventing spreading of stream	H01J23/08	H01J23/08		74
H01J23/083	10	Electrostatic focusing arrangements	H01J23/083	H01J23/083		137
H01J23/087	10	Magnetic focusing arrangements	H01J23/087	H01J23/087		335
H01J23/0873	11	{with at least one axial-field reversal along the interaction space, e.g. P.P.M. focusing}	H01J23/087	H01J23/087		223
H01J23/0876	11	{with arrangements improving the linearity and homogeniety of the axial field, e.g. field straightener}	H01J23/087	H01J23/087		60
H01J23/09	9	Electric systems for directing or deflecting the discharge along a desired path, e.g. E-type (focusing arrangements H01J23/08)	H01J23/09	H01J23/09		24
H01J23/10	9	Magnet systems for directing or deflecting the discharge along a desired path, e.g. a spiral path (magnetic focusing arrangements H01J23/08)	H01J23/10	H01J23/10		353
H01J23/11	9	Means for reducing noise (in electron or ion gun H01J23/06)	H01J23/11	H01J23/11		75
H01J23/12	8	Vessels; Containers	H01J23/12	H01J23/12		313
H01J23/14	8	Leading-in arrangements; Seals therefor	H01J23/14	H01J23/14		166
H01J23/15	9	Means for preventing wave energy leakage structurally associated with tube leading-in arrangements, e.g. filters, chokes, attenuating devices	H01J23/15	H01J23/15		361
H01J23/16	8	Circuit elements, having distributed capacitance and inductance, structurally associated with the tube and interacting with the discharge	H01J23/16	H01J23/16		92
H01J23/165	9	{Manufacturing processes or apparatus therefore}	H01J23/16	H01J23/16		123
H01J23/18	9	Resonators	H01J23/18	H01J23/18		80
H01J23/20	10	Cavity resonators; Adjustment or tuning thereof	H01J23/20	H01J23/20		419
H01J23/207	11	Tuning of single resonator	H01J23/207	H01J23/207		199
H01J23/213	11	Simultaneous tuning of more than one resonator, e.g. resonant cavities of a magnetron	H01J23/213	H01J23/213		238
H01J23/22	10	Connections between resonators, e.g. strapping for connecting resonators of a magnetron	H01J23/22	H01J23/22		203
H01J23/24	9	Slow-wave structures {, e.g. delay systems}	H01J23/24	H01J23/24		758
H01J23/26	10	Helical slow-wave structures; Adjustment therefor	H01J23/26	H01J23/26		516
H01J23/27	11	Helix-derived slow-wave structures	H01J23/27	H01J23/27		128
H01J23/28	10	Interdigital slow-wave structures; Adjustment therefor	H01J23/28	H01J23/28		114
H01J23/30	10	Damping arrangements associated with slow-wave structures, e.g. for suppression of unwanted oscillations	H01J23/30	H01J23/30		349
H01J23/34	8	Circuit arrangements not adapted to a particular application of the tube and not otherwise provided for	H01J23/34	H01J23/34		150
H01J23/36	8	Coupling devices having distributed capacitance and inductance, structurally associated with the tube, for introducing or removing wave energy	H01J23/36	H01J23/36		481
H01J23/38	9	to or from the discharge	H01J23/38	H01J23/38		63
H01J23/40	9	to or from the interaction circuit	H01J23/40	H01J23/40		75
H01J23/42	10	the interaction circuit being a helix or a helix-derived slow-wave structure (H01J23/44&#160;-&#160;H01J23/48 take precedence)	H01J23/42	H01J23/42		124
H01J23/44	10	Rod-type coupling devices (H01J23/46, H01J23/48, H01J23/54 take precedence)	H01J23/44	H01J23/44		37
H01J23/46	10	Loop coupling devices	H01J23/46	H01J23/46		62
H01J23/48	10	for linking interaction circuit with coaxial lines; Devices of the coupled helices type (H01J23/46 takes precedence)	H01J23/48	H01J23/48		124
H01J23/50	11	the interaction circuit being a helix or derived from a helix (H01J23/52 takes precedence)	H01J23/50	H01J23/50		130
H01J23/52	11	the coupled helices being disposed coaxially around one another	H01J23/52	H01J23/52		32
H01J23/54	9	Filtering devices preventing unwanted frequencies or modes to be coupled to, or out of, the interaction circuit; Prevention of high frequency leakage in the environment	H01J23/54	H01J23/54		193
H01J25/00	7	Transit-time tubes, e.g. klystrons, travelling-wave tubes, magnetrons (details of transit-time tubes H01J23/00; particle accelerators H05H)	H01J25/00	H01J25/00		339
H01J25/005	8	{Gas-filled transit-time tubes}	H01J25/00	H01J25/00		85
H01J25/02	8	Tubes with electron stream modulated in velocity or density in a modulator zone and thereafter giving up energy in an inducing zone, the zones being associated with one or more resonators	H01J25/02	H01J25/02		255
H01J25/025	9	{with an electron stream following a helical path}	H01J25/02	H01J25/02		137
H01J25/04	9	Tubes having one or more resonators, without reflection of the electron stream, and in which the modulation produced in the modulator zone is mainly density modulation, e.g. Heaff tube	H01J25/04	H01J25/04		142
H01J25/06	9	Tubes having only one resonator, without reflection of the electron stream, and in which the modulation produced in the modulator zone is mainly velocity modulation, e.g. L&#252;di-Klystron	H01J25/06	H01J25/06		96
H01J25/08	10	with electron stream perpendicular to the axis of the resonator	H01J25/08	H01J25/08		79
H01J25/10	9	Klystrons, i.e. tubes having two or more resonators, without reflection of the electron stream, and in which the stream is modulated mainly by velocity in the zone of the input resonator	H01J25/10	H01J25/10		363
H01J25/11	10	Extended interaction klystrons	H01J25/11	H01J25/11		43
H01J25/12	10	with pencil-like electron stream in the axis of the resonators	H01J25/12	H01J25/12		514
H01J25/14	10	with tube-like electron stream coaxial with the axis of the resonators	H01J25/14	H01J25/14		31
H01J25/16	10	with pencil-like electron stream perpendicular to the axis of the resonators	H01J25/16	H01J25/16		70
H01J25/18	10	with radial or disc-like electron stream perpendicular to the axis of the resonators	H01J25/18	H01J25/18		28
H01J25/20	10	having special arrangements in the space between resonators, e.g. resistive-wall amplifier tube, space-charge amplifier tube, velocity-jump tube	H01J25/20	H01J25/20		54
H01J25/22	9	Reflex klystrons, i.e. tubes having one or more resonators, with a single reflection of the electron stream, and in which the stream is modulated mainly by velocity in the modulator zone	H01J25/22	H01J25/22		78
H01J25/24	10	in which the electron stream is in the axis of the resonator or resonators and is pencil-like before reflection	H01J25/24	H01J25/24		399
H01J25/26	10	in which the electron stream is coaxial with the axis of the resonator or resonators and is tube-like before reflection	H01J25/26	H01J25/26		12
H01J25/28	10	in which the electron stream is perpendicular to the axis of the resonator or resonators and is pencil-like before reflection	H01J25/28	H01J25/28		25
H01J25/30	10	in which the electron stream is perpendicular to the axis of the resonator or resonators and is radial or disc-like before reflection	H01J25/30	H01J25/30		34
H01J25/32	9	Tubes with plural reflection, e.g. Coeterier tube	H01J25/32	H01J25/32		43
H01J25/34	8	Travelling-wave tubes; Tubes in which a travelling wave is simulated at spaced gaps	H01J25/34	H01J25/34		562
H01J25/36	9	Tubes in which an electron stream interacts with a wave travelling along a delay line or equivalent sequence of impedance elements, and without magnet system producing an H-field crossing the E-field	H01J25/36	H01J25/36		132
H01J25/38	10	the forward travelling wave being utilised	H01J25/38	H01J25/38		514
H01J25/40	10	the backward travelling wave being utilised	H01J25/40	H01J25/40		143
H01J25/42	9	Tubes in which an electron stream interacts with a wave travelling along a delay line or equivalent sequence of impedance elements, and with a magnet system producing an H-field crossing the E-field (with travelling wave moving completely around the electron space H01J25/50)	H01J25/42	H01J25/42		168
H01J25/44	10	the forward travelling wave being utilised	H01J25/44	H01J25/44		218
H01J25/46	10	the backward travelling wave being utilised	H01J25/46	H01J25/46		108
H01J25/48	9	Tubes in which two electron streams of different velocities interact with one another, e.g. electron-wave tube	H01J25/48	H01J25/48		59
H01J25/49	9	Tubes using the parametric principle, e.g. for parametric amplification	H01J25/49	H01J25/49		170
H01J25/50	8	Magnetrons, i.e. tubes with a magnet system producing an H-field crossing the E-field (with travelling wave not moving completely around the electron space H01J25/42; functioning with plural reflection or with reversed cyclotron action H01J25/62, H01J25/64)	H01J25/50	H01J25/50		511
H01J25/52	9	with an electron space having a shape that does not prevent any electron from moving completely around the cathode or guide electrode	H01J25/52	H01J25/52		305
H01J25/54	10	having only one cavity or other resonator, e.g. neutrode tubes	H01J25/54	H01J25/54		90
H01J25/55	11	Coaxial cavity magnetrons	H01J25/55	H01J25/55		99
H01J25/56	11	with interdigital arrangements of anodes, e.g. turbator tube	H01J25/56	H01J25/56		138
H01J25/58	10	having a number of resonators; having a composite resonator, e.g. a helix	H01J25/58	H01J25/58		124
H01J25/587	11	Multi-cavity magnetrons	H01J25/587	H01J25/587		575
H01J25/593	12	Rising-sun magnetrons	H01J25/593	H01J25/593		43
H01J25/60	9	with an electron space having a shape that prevents any electron from moving completely around the cathode or guide electrode; Linear magnetrons	H01J25/60	H01J25/60		19
H01J25/61	8	Hybrid tubes, i.e. tubes comprising a klystron section and a travelling-wave section	H01J25/61	H01J25/61		8
H01J25/62	8	Strophotrons, i.e. tubes with H-field crossing the E-field and functioning with plural reflection	H01J25/62	H01J25/62		14
H01J25/64	8	Turbine tubes, i.e. tubes with H-field crossing the E-field and functioning with reversed cyclotron action	H01J25/64	H01J25/64		33
H01J25/66	8	Tubes with electron stream crossing itself and thereby interacting or interfering with itself	H01J25/66	H01J25/66		9
H01J25/68	8	Tubes specially designed to act as oscillator with positive grid and retarding field, e.g. for Barkhausen-Kurz oscillators (with secondary emission H01J25/76)	H01J25/68	H01J25/68		205
H01J25/70	9	with resonator having distributed inductance with capacitance, e.g. Pintsch tube	H01J25/70	H01J25/70		75
H01J25/72	9	in which a standing wave or a considerable part thereof is produced along an electrode, e.g. Clavier tube (with resonator having distributed inductance and capacitance H01J25/70)	H01J25/72	H01J25/72		39
H01J25/74	8	Tubes specially designed to act as transit-time diode oscillators, e.g. monotrons	H01J25/74	H01J25/74		80
H01J25/76	8	Dynamic electron-multiplier tubes, e.g. Farnsworth multiplier tube, multipactor	H01J25/76	H01J25/76		159
H01J25/78	8	Tubes with electron stream modulated by deflection in a resonator	H01J25/78	H01J25/78		223
H01J27/00	7	Ion beam tubes (H01J25/00, H01J33/00, H01J37/00 take precedence; particle accelerators H05H)	H01J27/00	H01J27/00		42
H01J27/02	8	Ion sources; Ion guns {(for examination or processing discharge tubes H01J37/08; ion sources, ion guns for particle spectrometer or separator tubes H01J49/10; ion propulsion F03H1/00)}	H01J27/02	H01J27/02		365
H01J27/022	9	{Details}	H01J27/02	H01J27/02		489
H01J27/024	10	{Extraction optics, e.g. grids}	H01J27/02	H01J27/02		195
H01J27/026	9	{Cluster ion sources}	H01J27/02	H01J27/02		47
H01J27/028	9	{Negative ion sources}	H01J27/02	H01J27/02		105
H01J27/04	9	using reflex discharge, e.g. Penning ion sources {(electron bombardment ion sources H01J27/08)}	H01J27/04	H01J27/04		166
H01J27/06	10	without applied magnetic field	H01J27/06	H01J27/06		8
H01J27/08	9	using arc discharge	H01J27/08	H01J27/08		440
H01J27/10	10	Duoplasmatrons {; Duopigatrons}	H01J27/10	H01J27/10		61
H01J27/12	11	provided with an expansion cup	H01J27/12	H01J27/12		13
H01J27/14	10	Other arc discharge ion sources using an applied magnetic field	H01J27/14	H01J27/14		198
H01J27/143	11	{Hall-effect ion sources with closed electron drift}	H01J27/14	H01J27/14		77
H01J27/146	11	{End-Hall type ion sources, wherein the magnetic field confines the electrons in a central cylinder}	H01J27/14	H01J27/14		42
H01J27/16	9	using high-frequency excitation, e.g. microwave excitation	H01J27/16	H01J27/16		231
H01J27/18	10	with an applied axial magnetic field	H01J27/18	H01J27/18		254
H01J27/20	9	using particle {beam} bombardment, e.g. ionisers	H01J27/20	H01J27/20		132
H01J27/205	10	{with electrons, e.g. electron impact ionisation, electron attachment}	H01J27/20	H01J27/20		122
H01J27/22	10	Metal ion sources	H01J27/22	H01J27/22		70
H01J27/24	9	using photo-ionisation, e.g. using laser beam	H01J27/24	H01J27/24		158
H01J27/26	9	using surface ionisation, e.g. field effect ion sources, thermionic ion sources (H01J27/20, H01J27/24 take precedence)	H01J27/26	H01J27/26		493
H01J29/00	7	Details of cathode-ray tubes or of electron-beam tubes of the types covered by group H01J31/00	H01J29/00	H01J29/00		160
H01J29/003	8	{Arrangements for eliminating unwanted electromagnetic effects, e.g. demagnetisation arrangements, shielding coils (H01J29/06, H01J29/867 take precedence; demagnetisation in general H01F13/00; circuit arrangements therefor H04N9/29; screening of apparatus against electric or magnetic fields H05K9/00)}	H01J29/00	H01J29/00		686
H01J29/006	8	{Arrangements for eliminating unwanted temperature effects}	H01J29/00	H01J29/00		354
H01J29/02	8	Electrodes; Screens; Mounting, supporting, spacing or insulating thereof	H01J29/02	H01J29/02		942
H01J29/021	9	{arrangements for eliminating interferences in the tube (H01J29/484 takes precedence)}	H01J29/02	H01J29/02		159
H01J29/023	9	{secondary-electron emitting electrode arrangements (secondary-emission tubes H01J43/00)}	H01J29/02	H01J29/02		196
H01J29/025	9	{Mounting or supporting arrangements for grids (H01J29/028 takes precedence)}	H01J29/02	H01J29/02		84
H01J29/026	9	{Mounting or supporting arrangements for charge storage screens not deposited on the frontplate}	H01J29/02	H01J29/02		72
H01J29/028	9	{Mounting or supporting arrangements for flat panel cathode ray tubes, e.g. spacers particularly relating to electrodes}	H01J29/02	H01J29/02		416
H01J29/04	9	Cathodes	H01J29/04	H01J29/04		1209
H01J29/06	9	Screens for shielding; Masks interposed in the electron stream	H01J29/06	H01J29/06		563
H01J29/07	10	Shadow masks for colour television tubes	H01J29/07	H01J29/07		1565
H01J29/073	11	{Mounting arrangements associated with shadow masks}	H01J29/07	H01J29/07		1805
H01J29/076	11	{characterised by the shape or distribution of beam-passing apertures}	H01J29/07	H01J29/07		395
H01J29/08	9	Electrodes intimately associated with a screen on or from which an image or pattern is formed, picked-up, converted or stored, e.g. backing-plates for storage tubes or collecting secondary electrons	H01J29/08	H01J29/08		168
H01J29/085	10	{Anode plates, e.g. for screens of flat panel displays}	H01J29/08	H01J29/08		449
H01J29/10	9	Screens on or from which an image or pattern is formed, picked up, converted or stored	H01J29/10	H01J29/10		254
H01J29/12	10	acting as light valves by shutter operation, e.g. for eidophor	H01J29/12	H01J29/12		64
H01J29/14	10	acting by discoloration, e.g. halide screen	H01J29/14	H01J29/14		142
H01J29/16	10	Incandescent screens	H01J29/16	H01J29/16		52
H01J29/18	10	Luminescent screens	H01J29/18	H01J29/18		453
H01J29/182	11	{acting upon the lighting-up of the luminescent material other than by the composition of the luminescent material, e.g. by infra red or UV radiation, heating or electric fields}	H01J29/18	H01J29/18		101
H01J29/185	11	{measures against halo-phenomena}	H01J29/18	H01J29/18		179
H01J29/187	11	{screens with more than one luminescent material (as mixtures for the treatment of the screens) (for several superimposed luminescent layers H01J29/26; for adjacent dots or lines of different luminescent material H01J29/32)}	H01J29/18	H01J29/18		283
H01J29/20	11	characterised by the luminescent material	H01J29/20	H01J29/20		612
H01J29/22	11	characterised by the binder or adhesive for securing the luminescent material to its support, e.g. vessel	H01J29/22	H01J29/22		110
H01J29/225	12	{photosensitive adhesive}	H01J29/22	H01J29/22		88
H01J29/24	11	Supports for luminescent material	H01J29/24	H01J29/24		328
H01J29/26	11	with superimposed luminescent layers	H01J29/26	H01J29/26		126
H01J29/28	11	with protective, conductive or reflective layers	H01J29/28	H01J29/28		883
H01J29/30	11	with luminescent material discontinuously arranged, e.g. in dots, in lines	H01J29/30	H01J29/30		67
H01J29/32	12	with adjacent dots or lines of different luminescent material, e.g. for colour television	H01J29/32	H01J29/32		438
H01J29/322	13	{with adjacent dots}	H01J29/32	H01J29/32		71
H01J29/325	13	{with adjacent lines}	H01J29/32	H01J29/32		73
H01J29/327	13	{Black matrix materials}	H01J29/32	H01J29/32		398
H01J29/34	11	provided with permanent marks or references	H01J29/34	H01J29/34		144
H01J29/36	10	Photoelectric screens; Charge-storage screens	H01J29/36	H01J29/36		37
H01J29/38	11	not using charge storage, e.g. photo-emissive screen, extended cathode {(electrodes using photo-emission in general H01J1/34)}	H01J29/38	H01J29/38		219
H01J29/385	12	{Photocathodes comprising a layer which modified the wave length of impinging radiation}	H01J29/38	H01J29/38		242
H01J29/39	11	Charge-storage screens	H01J29/39	H01J29/39		164
H01J29/395	12	{charge-storage grids exhibiting triode effect}	H01J29/39	H01J29/39		99
H01J29/41	12	using secondary emission, e.g. for supericonoscope {(electrodes using secondary emission in general H01J1/32; secondary emission tubes H01J43/00)}	H01J29/41	H01J29/41		131
H01J29/413	13	{for writing and reading of charge pattern on opposite sides of the target, e.g. for superorthicon}	H01J29/41	H01J29/41		120
H01J29/416	14	{with a matrix of electrical conductors traversing the target}	H01J29/41	H01J29/41		91
H01J29/43	12	using photo-emissive mosaic, e.g. for orthicon, for iconoscope	H01J29/43	H01J29/43		197
H01J29/435	13	{with a matrix of conductors traversing the target}	H01J29/43	H01J29/43		47
H01J29/44	12	exhibiting internal electric effects caused by particle radiation, e.g. bombardment-induced conductivity {(particle detectors exhibiting internal electric effects G01T1/26)}	H01J29/44	H01J29/44		151
H01J29/45	12	exhibiting internal electric effects caused by electromagnetic radiation, e.g. photoconductive screen, photodielectric screen, photovoltaic screen {(photoconductive layers for electrography G03G5/00)}	H01J29/45	H01J29/45		246
H01J29/451	13	{with photosensitive junctions}	H01J29/45	H01J29/45		51
H01J29/453	14	{provided with diode arrays}	H01J29/45	H01J29/45		44
H01J29/455	15	{formed on a silicon substrate}	H01J29/45	H01J29/45		85
H01J29/456	14	{exhibiting no discontinuities, e.g. consisting of uniform layers}	H01J29/45	H01J29/45		122
H01J29/458	13	{pyroelectrical targets; targets for infrared or ultraviolet or X-ray radiations}	H01J29/45	H01J29/45		126
H01J29/46	8	Arrangements of electrodes and associated parts for generating or controlling the ray or beam, e.g. electron-optical arrangement {(transit time tubes H01J23/00, H01J25/00; X-ray tubes H01J35/00; beam tubes for examining ions, e.g. electron or ion microscopes, or processing of objects or materials, e.g. electron or ion beam tubes H01J37/04; electron multipliers H01J43/04; handling of radiation or particles, e.g. focusing, deviating, not otherwise provided for G21K1/00)}<br><br><u>NOTE</u><br><br>H01J29/48 takes precedence over groups H01J29/52 - H01J29/58.	H01J29/46	H01J29/46		365
H01J29/462	9	{arrangements for interrupting the beam during inoperative periods}	H01J29/46	H01J29/46		21
H01J29/465	9	{for simultaneous focalisation and deflection of ray or beam}	H01J29/46	H01J29/46		41
H01J29/467	9	{Control electrodes for flat display tubes, e.g. of the type covered by group H01J31/123}	H01J29/46	H01J29/46		628
H01J29/48	9	Electron guns	H01J29/48	H01J29/48		739
H01J29/481	10	{Electron guns using field-emission, photo-emission, or secondary-emission electron source}	H01J29/48	H01J29/48		303
H01J29/482	10	{Electron guns using electron multiplication}	H01J29/48	H01J29/48		40
H01J29/484	10	{Eliminating deleterious effects due to thermal effects, electrical or magnetic fields; Preventing unwanted emission (H01J29/481 and H01J29/482 take precedence)}	H01J29/48	H01J29/48		230
H01J29/485	10	{Construction of the gun or of parts thereof (H01J29/481, H01J29/482, H01J29/484 and H01J29/487 take precedence)}	H01J29/48	H01J29/48		1152
H01J29/487	10	{Replacing parts of the gun; Relative adjustment of the electrodes (H01J29/481 and H01J29/482 take precedence; vacuum locks H01J29/865)}	H01J29/48	H01J29/48		46
H01J29/488	10	{Schematic arrangements of the electrodes for beam forming; Place and form of the elecrodes}	H01J29/48	H01J29/48		1014
H01J29/50	10	two or more guns in a single vacuum space, e.g. for plural-ray tube (H01J29/51 takes precedence)	H01J29/50	H01J29/50		395
H01J29/503	11	{Three or more guns, the axes of which lay in a common plane}	H01J29/50	H01J29/50		883
H01J29/506	11	{guns in delta or circular configuration}	H01J29/50	H01J29/50		52
H01J29/51	10	Arrangements for controlling convergence of a plurality of beams {by means of electric field only}	H01J29/51	H01J29/51		254
H01J29/52	9	Arrangements for controlling intensity of ray or beam, e.g. for modulation {(H01J29/467 takes precedence)}	H01J29/52	H01J29/52		322
H01J29/525	10	{Digitally controlled systems, e.g. Digisplay}	H01J29/52	H01J29/52		8
H01J29/54	9	Arrangements for centring ray or beam {(H01J29/467 takes precedence)}	H01J29/54	H01J29/54		266
H01J29/56	9	Arrangements for controlling cross-section of ray or beam; Arrangements for correcting aberration of beam, e.g. due to lenses {(H01J29/467 takes precedence)}	H01J29/56	H01J29/56		251
H01J29/563	10	{for controlling cross-section}	H01J29/56	H01J29/56		49
H01J29/566	10	{for correcting aberration}	H01J29/56	H01J29/56		96
H01J29/58	9	Arrangements for focusing or reflecting ray or beam	H01J29/58	H01J29/58		210
H01J29/585	10	{in which the transit time of the electrons has to be taken into account}	H01J29/58	H01J29/58		6
H01J29/60	10	Mirrors	H01J29/60	H01J29/60		57
H01J29/62	10	Electrostatic lenses	H01J29/62	H01J29/62		211
H01J29/622	11	{producing fields exhibiting symmetry of revolution}	H01J29/62	H01J29/62		20
H01J29/624	12	{co-operating with or closely associated to an electron gun}	H01J29/62	H01J29/62		321
H01J29/626	11	{producing fields exhibiting periodic axial symmetry, e.g. multipolar fields}	H01J29/62	H01J29/62		4
H01J29/628	12	{co-operating with or closely associated to an electron gun}	H01J29/62	H01J29/62		55
H01J29/64	10	Magnetic lenses	H01J29/64	H01J29/64		101
H01J29/66	11	using electromagnetic means only	H01J29/66	H01J29/66		167
H01J29/68	11	using permanent magnets only	H01J29/68	H01J29/68		181
H01J29/70	9	Arrangements for deflecting ray or beam {(H01J29/467, H01J29/525 take precedence)}	H01J29/70	H01J29/70		467
H01J29/701	10	{Systems for correcting deviation or convergence of a plurality of beams by means of magnetic fields at least}	H01J29/70	H01J29/70		279
H01J29/702	11	{Convergence correction arrangements therefor}	H01J29/70	H01J29/70		1055
H01J29/703	12	{Static convergence systems}	H01J29/70	H01J29/70		301
H01J29/705	12	{Dynamic convergence systems}	H01J29/70	H01J29/70		201
H01J29/706	11	{Deviation correction devices, i.e. having the same action on each beam}	H01J29/70	H01J29/70		76
H01J29/707	11	{Arrangements intimately associated with parts of the gun and co-operating with external magnetic excitation devices}	H01J29/70	H01J29/70		173
H01J29/708	10	{in which the transit time of the electrons has to be taken into account}	H01J29/70	H01J29/70		46
H01J29/72	10	along one straight line or along two perpendicular straight lines	H01J29/72	H01J29/72		62
H01J29/74	11	Deflecting by electric fields only	H01J29/74	H01J29/74		339
H01J29/76	11	Deflecting by magnetic fields only	H01J29/76	H01J29/76		2783
H01J29/762	12	{using saddle coils or printed windings (coils per seH01F)}	H01J29/76	H01J29/76		415
H01J29/764	12	{using toroidal windings}	H01J29/76	H01J29/76		194
H01J29/766	12	{using a combination of saddle coils and toroidal windings}	H01J29/76	H01J29/76		110
H01J29/768	12	{using printed windings (printed windings in general H01F27/2804; manufacturing printed coils per seH01F41/04; printed circuits and apparatus or processes for manufacturing printed circuits in general H05K1/00, e.g. H05K1/16, and H05K3/00)}	H01J29/76	H01J29/76		53
H01J29/78	10	along a circle, spiral or rotating radial line, e.g. for radar display	H01J29/78	H01J29/78		68
H01J29/80	9	Arrangements for controlling the ray or beam after passing the main deflection system, e.g. for post-acceleration or post-concentration, for colour switching {(H01J29/701 takes precedence)}	H01J29/80	H01J29/80		211
H01J29/803	10	{for post-acceleration or post-deflection, e.g. for colour switching}	H01J29/80	H01J29/80		114
H01J29/806	11	{Electron lens mosaics, e.g. fly&apos;s eye lenses, colour selection lenses}	H01J29/80	H01J29/80		30
H01J29/81	10	using shadow masks	H01J29/81	H01J29/81		132
H01J29/82	9	Mounting, supporting, spacing, or insulating electron-optical or ion-optical arrangements	H01J29/82	H01J29/82		602
H01J29/823	10	{around the neck of the tube}	H01J29/82	H01J29/82		139
H01J29/826	11	{Deflection arrangements}	H01J29/82	H01J29/82		619
H01J29/84	8	Arrangements for removing or diverting unwanted particles, e.g. for negative ions or fringing electrons; Arrangements for velocity or mass selection	H01J29/84	H01J29/84		169
H01J29/845	9	{by means of magnetic systems}	H01J29/84	H01J29/84		67
H01J29/86	8	Vessels; Containers; Vacuum locks	H01J29/86	H01J29/86		682
H01J29/861	9	{Vessels or containers characterised by the form or the structure thereof}	H01J29/86	H01J29/86		893
H01J29/862	10	{of flat panel cathode ray tubes}	H01J29/86	H01J29/86		194
H01J29/863	9	{Vessels or containers characterised by the material thereof}	H01J29/86	H01J29/86		216
H01J29/864	9	{Spacers between faceplate and backplate of flat panel cathode ray tubes}	H01J29/86	H01J29/86		484
H01J29/865	9	{Vacuum locks}	H01J29/86	H01J29/86		95
H01J29/866	10	{Devices for introducing a recording support into the vessel}	H01J29/86	H01J29/86		38
H01J29/867	9	{Means associated with the outside of the vessel for shielding, e.g. magnetic shields (screens for shielding inside the vessel H01J29/06; magnetic shielding in general H05K9/00)}	H01J29/86	H01J29/86		315
H01J29/868	10	{Screens covering the input or output face of the vessel, e.g. transparent anti-static coatings, X-ray absorbing layers}	H01J29/86	H01J29/86		333
H01J29/87	9	Arrangements for preventing or limiting effects of implosion of vessels or containers	H01J29/87	H01J29/87		994
H01J29/88	9	provided with coatings on the walls thereof; Selection of materials for the coatings {(H01J29/868 and H01J29/89 take precedence)}	H01J29/88	H01J29/88		710
H01J29/89	9	Optical or photographic arrangements structurally combined {or co-operating} with the vessel {(H01J29/866 and H01J29/868 take precedence)}	H01J29/89	H01J29/89		526
H01J29/892	10	{using fibre optics}	H01J29/89	H01J29/89		229
H01J29/894	10	{Arrangements combined with the vessel for the purpose of image projection on a screen (projection arrangements for image reproduction, e.g. using eidophor H04N5/74)}	H01J29/89	H01J29/89		181
H01J29/896	10	{Anti-reflection means, e.g. eliminating glare due to ambient light}	H01J29/89	H01J29/89		422
H01J29/898	10	{Spectral filters}	H01J29/89	H01J29/89		187
H01J29/90	8	Leading-in arrangements; Seals therefor	H01J29/90	H01J29/90		280
H01J29/92	8	Means forming part of the tube for the purpose of providing electrical connection to it	H01J29/92	H01J29/92		701
H01J29/925	9	{High voltage anode feedthrough connectors for display tubes}	H01J29/92	H01J29/92		239
H01J29/94	8	Selection of substances for gas fillings; Means for obtaining or maintaining the desired pressure within the tube, e.g. by gettering {(exhausting, degassing, gettering of electric discharge tubes in general H01J9/38)}	H01J29/94	H01J29/94		783
H01J29/96	8	One or more circuit elements structurally associated with the tube	H01J29/96	H01J29/96		393
H01J29/98	8	Circuit arrangements not adapted to a particular application of the tube and not otherwise provided for	H01J29/98	H01J29/98		174
H01J31/00	7	Cathode ray tubes; Electron beam tubes (H01J25/00, H01J33/00, H01J35/00, H01J37/00 take precedence; details of cathode ray tubes or of electron beam tubes H01J29/00)	H01J31/00	H01J31/00		84
H01J31/02	8	having one or more output electrodes which may be impacted selectively by the ray or beam, and onto, from, or over which the ray or beam may be deflected or de-focused {(pulse counting circuits therewith H03K29/06)}	H01J31/02	H01J31/02		55
H01J31/04	9	with only one or two output electrodes {with only two electrically independant groups or electrodes}	H01J31/04	H01J31/04		307
H01J31/06	9	with more than two output electrodes, e.g. for multiple switching or counting	H01J31/06	H01J31/06		290
H01J31/065	10	{for electrography or electrophotography, for transferring a charge pattern through the faceplate (leading-in arrangements H01J29/90; Lenard tubes H01J33/00; electrography or electrophotography per seG03C)}	H01J31/06	H01J31/06		130
H01J31/08	8	having a screen on or from which an image or pattern is formed, picked up, converted, or stored	H01J31/08	H01J31/08		79
H01J31/10	9	Image or pattern display tubes, i.e. having electrical input and optical output; Flying-spot tubes for scanning purposes	H01J31/10	H01J31/10		141
H01J31/12	10	with luminescent screen	H01J31/12	H01J31/12		583
H01J31/121	11	{tubes for oscillography (colour display tubes H01J31/20; cathode ray oscillography G01R13/20)}	H01J31/12	H01J31/12		133
H01J31/122	11	{Direct viewing storage tubes without storage grid (with storage grid H01J31/18)}	H01J31/12	H01J31/12		99
H01J31/123	11	{Flat display tubes}	H01J31/12	H01J31/12		389
H01J31/124	12	{using electron beam scanning}	H01J31/12	H01J31/12		319
H01J31/125	12	{provided with control means permitting the electron beam to reach selected parts of the screen, e.g. digital selection}	H01J31/12	H01J31/12		95
H01J31/126	13	{using line sources}	H01J31/12	H01J31/12		345
H01J31/127	13	{using large area or array sources, i.e. essentially a source for each pixel group}	H01J31/12	H01J31/12		1636
H01J31/128	11	{provided with control means permitting the electron beam to reach selected parts of the screen, e.g. digitally controlled display tubes (H01J31/123 takes precedence)}	H01J31/12	H01J31/12		71
H01J31/14	11	Magic-eye or analogous tuning indicators {(mounting of visual indicators in a radio set H03J1/04; circuits for timing indicators H03J3/14)}	H01J31/14	H01J31/14		207
H01J31/15	11	with ray or beam selectively directed to luminescent anode segments {(printing by application of radiation B41J2/447)}	H01J31/15	H01J31/15		818
H01J31/16	11	with mask carrying a number of selectively displayable signs, e.g. charactron, numeroscope {(tubes with a mask carrying a matrix of openings, a selection of which permits a sign to be displayed H01J31/128)}	H01J31/16	H01J31/16		121
H01J31/18	11	with image written by a ray or beam on a grid-like charge-accumulating screen, and with a ray or beam passing through and influenced by this screen before striking the luminescent screen, e.g. direct-view storage tube {(charge storage grids exhibiting triode effect H01J29/395)}	H01J31/18	H01J31/18		210
H01J31/20	10	for displaying images or patterns in two or more colours {(circuits for colour television H04N9/16&#160;-&#160;H04N9/28)}	H01J31/20	H01J31/20		209
H01J31/201	11	{using a colour-selection electrode}	H01J31/20	H01J31/20		83
H01J31/203	12	{with more than one electron beam}	H01J31/20	H01J31/20		110
H01J31/205	13	{with three electron beams in delta configuration}	H01J31/20	H01J31/20		46
H01J31/206	13	{with three coplanar electron beams}	H01J31/20	H01J31/20		83
H01J31/208	11	{using variable penetration depth of the electron beam in the luminescent layer, e.g. penetrons}	H01J31/20	H01J31/20		42
H01J31/22	10	for stereoscopic displays	H01J31/22	H01J31/22		30
H01J31/24	10	with screen acting as light valve by shutter operation, e.g. eidophor {(projection arrangements for image reproduction, e.g. using eidophor H04N5/74)}	H01J31/24	H01J31/24		44
H01J31/26	9	Image pick-up tubes having an input of visible light and electric output (tubes without defined electron beams and having a light ray scanning photo-emissive screen H01J40/20)	H01J31/26	H01J31/26		155
H01J31/265	10	{with light spot scanning}	H01J31/26	H01J31/26		78
H01J31/28	10	with electron ray scanning the image screen	H01J31/28	H01J31/28		184
H01J31/283	11	{with a target comprising semiconductor junctions}	H01J31/28	H01J31/28		19
H01J31/286	11	{correlater tubes}	H01J31/28	H01J31/28		18
H01J31/30	11	having regulation of screen potential at anode potential, e.g. iconoscope	H01J31/30	H01J31/30		107
H01J31/32	12	Tubes with image amplification section, e.g. image-iconoscope, supericonoscope	H01J31/32	H01J31/32		95
H01J31/34	11	having regulation of screen potential at cathode potential, e.g. orthicon	H01J31/34	H01J31/34		80
H01J31/36	12	Tubes with image amplification section, e.g. image-orthicon	H01J31/36	H01J31/36		184
H01J31/38	12	Tubes with photoconductive screen, e.g. vidicon	H01J31/38	H01J31/38		245
H01J31/40	11	having grid-like image screen through which the electron ray passes and by which the ray is influenced before striking the output electrode, i.e. having "triode action"	H01J31/40	H01J31/40		45
H01J31/42	10	with image screen generating a composite electron beam which is deflected as a whole past a stationary probe to simulate a scanning effect, e.g. Farnsworth pick-up tube	H01J31/42	H01J31/42		97
H01J31/44	11	Tubes with image amplification section	H01J31/44	H01J31/44		50
H01J31/46	10	Tubes in which electrical output represents both intensity and colour of image {(colour television cameras with only one tube H04N23/12)}	H01J31/46	H01J31/46		83
H01J31/48	10	Tubes with amplification of output effected by electron multiplier arrangements within the vacuum space	H01J31/48	H01J31/48		116
H01J31/49	9	Pick-up adapted for an input of electromagnetic radiation other than visible light and having an electric output, e.g. for an input of X-rays, for an input of infrared radiation	H01J31/49	H01J31/49		274
H01J31/495	9	Pick-up tubes adapted for an input of sonic, ultrasonic or mechanical vibrations and having an electric output	H01J31/495	H01J31/495		45
H01J31/50	9	Image-conversion or image-amplification tubes, i.e. having optical, X-ray, or analogous input, and optical output	H01J31/50	H01J31/50		577
H01J31/501	10	{with an electrostatic electron optic system (H01J31/52&#160;-&#160;H01J31/56 take precedence)}	H01J31/50	H01J31/50		322
H01J31/502	11	{with means to interrupt the beam, e.g. shutter for high speed photography (circuits using electron-beam shutters G03B27/725)}	H01J31/50	H01J31/50		121
H01J31/503	10	{with an electromagnetic electron-optic system (H01J31/52&#160;-&#160;H01J31/56 take precedence)}	H01J31/50	H01J31/50		49
H01J31/505	10	{flat tubes, e.g. proximity focusing tubes}	H01J31/50	H01J31/50		107
H01J31/506	10	{tubes using secondary emission effect}	H01J31/50	H01J31/50		139
H01J31/507	11	{using a large number of channels, e.g. microchannel plates}	H01J31/50	H01J31/50		268
H01J31/508	10	{Multistage converters}	H01J31/50	H01J31/50		44
H01J31/52	10	having grid-like image screen through which the electron ray or beam passes and by which the ray or beam is influenced before striking the luminescent output screen, i.e. having "triode action"	H01J31/52	H01J31/52		66
H01J31/54	10	in which the electron ray or beam is reflected by the image input screen on to the image output screen	H01J31/54	H01J31/54		27
H01J31/56	10	for converting or amplifying images in two or more colours	H01J31/56	H01J31/56		45
H01J31/58	9	Tubes for storage of image or information pattern or for conversion of definition of television or like images, i.e. having electrical input and electrical output {(electrostatic memories using electron beam tubes G11C11/23)}	H01J31/58	H01J31/58		66
H01J31/585	10	{Monoscopes (H01J31/60 takes precedence)}	H01J31/58	H01J31/58		13
H01J31/60	10	having means for deflecting, either selectively or sequentially, an electron ray on to separate surface elements of the screen (by circuitry alone H01J29/08)	H01J31/60	H01J31/60		225
H01J31/62	11	with separate reading and writing rays	H01J31/62	H01J31/62		53
H01J31/64	12	on opposite sides of screen, e.g. for conversion of definition	H01J31/64	H01J31/64		112
H01J31/66	10	having means for allowing all but selected cross-section elements of a homogeneous electron beam to reach corresponding elements of the screen, e.g. selectron	H01J31/66	H01J31/66		7
H01J31/68	10	in which the information pattern represents two or more colours	H01J31/68	H01J31/68		8
H01J33/00	7	Discharge tubes with provision for emergence of electrons or ions from the vessel ({irradiation devices G21K} ; particle accelerators H05H); Lenard tubes	H01J33/00	H01J33/00		287
H01J33/02	8	Details {(vessels for operation at high tension H01J5/06)}	H01J33/02	H01J33/02		95
H01J33/04	9	Windows	H01J33/04	H01J33/04		194
H01J35/00	7	X-ray tubes	H01J35/00	H01J35/00		254
H01J35/02	8	Details	H01J35/02	H01J35/02		504
H01J35/025	9	{X-ray tubes with structurally associated circuit elements}	H01J35/02	H01J35/02		226
H01J35/04	9	Electrodes {; Mutual position thereof; Constructional adaptations therefor}	H01J35/04	H01J35/04		364
H01J35/045	10	{Electrodes for controlling the current of the cathode ray, e.g. control grids}	H01J35/04	H01J35/04		224
H01J35/06	10	Cathodes	H01J35/06	H01J35/06		372
H01J35/064	11	{Details of the emitter, e.g. material or structure (H01J35/065 takes precedence)}	H01J35/06	H01J35/06		630
H01J35/065	11	{Field emission, photo emission or secondary emission cathodes}	H01J35/06	H01J35/06		599
H01J35/066	11	{Details of electron optical components, e.g. cathode cups}	H01J35/06	H01J35/06		368
H01J35/08	10	Anodes; Anti cathodes	H01J35/08	H01J35/08		411
H01J35/10	11	Rotary anodes; Arrangements for rotating anodes; Cooling rotary anodes	H01J35/10	H01J35/10		696
H01J35/101	12	{Arrangements for rotating anodes, e.g. supporting means, means for greasing, means for sealing the axle or means for shielding or protecting the driving}	H01J35/10	H01J35/10		223
H01J35/1017	13	{Bearings for rotating anodes}	H01J35/10	H01J35/10		179
H01J35/1024	14	{Rolling bearings}	H01J35/10	H01J35/10		272
H01J35/103	14	{Magnetic bearings}	H01J35/10	H01J35/10		94
H01J35/104	14	{Fluid bearings}	H01J35/10	H01J35/10		156
H01J35/105	12	{Cooling of rotating anodes, e.g. heat emitting layers or structures}	H01J35/10	H01J35/10		170
H01J35/106	13	{Active cooling, e.g. fluid flow, heat pipes}	H01J35/10	H01J35/10		250
H01J35/107	13	{Cooling of the bearing assemblies}	H01J35/10	H01J35/10		119
H01J35/108	12	{Substrates for and bonding of emissive target, e.g. composite structures}	H01J35/10	H01J35/10		258
H01J35/112	11	{Non-rotating anodes (H01J35/12 takes precedence)}	H01J35/08	H01J35/112		384
H01J35/116	12	{Transmissive anodes (acting as a window H01J35/186)}	H01J35/08	H01J35/116		467
H01J35/12	11	Cooling non-rotary anodes	H01J35/12	H01J35/12		224
H01J35/13	12	{Active cooling, e.g. fluid flow, heat pipes}	H01J35/12	H01J35/13		289
H01J35/14	9	Arrangements for concentrating, focusing, or directing the cathode ray	H01J35/14	H01J35/14		456
H01J35/147	10	{Spot size control}	H01J35/14	H01J35/14		546
H01J35/153	10	{Spot position control}	H01J35/14	H01J35/153		421
H01J35/16	9	Vessels; Containers; Shields associated therewith	H01J35/16	H01J35/16		1057
H01J35/165	10	{joining connectors to the tube}	H01J35/16	H01J35/16		115
H01J35/18	10	Windows	H01J35/18	H01J35/18		419
H01J35/186	11	{used as targets or X-ray converters}	H01J35/18	H01J35/18		268
H01J35/20	9	Selection of substances for gas fillings; Means for obtaining or maintaining the desired pressure within the tube, e.g. by gettering	H01J35/20	H01J35/20		230
H01J35/22	8	specially designed for passing a very high current for a very short time, e.g. for flash operation	H01J35/22	H01J35/22		114
H01J35/24	8	Tubes wherein the point of impact of the cathode ray on the anode or anticathode is movable relative to the surface thereof	H01J35/24	H01J35/24		304
H01J35/26	9	by rotation of the anode or anticathode	H01J35/26	H01J35/26		281
H01J35/28	9	by vibration, oscillation, reciprocation, or swash-plate motion of the anode or anticathode	H01J35/28	H01J35/28		73
H01J35/30	9	by deflection of the cathode ray	H01J35/30	H01J35/30		294
H01J35/305	10	{by using a rotating X-ray tube in conjunction therewith}	H01J35/30	H01J35/30		143
H01J35/32	8	Tubes wherein the X-rays are produced at or near the end of the tube or a part thereof which tube or part has a small cross-section to facilitate introduction into a small hole or cavity	H01J35/32	H01J35/32		204
H01J37/00	7	Discharge tubes with provision for introducing objects or material to be exposed to the discharge, e.g. for the purpose of examination or processing thereof (H01J33/00, H01J40/00, H01J41/00, H01J47/00, H01J49/00 take precedence)	H01J37/00	H01J37/00		178
H01J37/02	8	Details	H01J37/02	H01J37/02		352
H01J37/023	9	{Means for mechanically adjusting components not otherwise provided for}	H01J37/02	H01J37/02		286
H01J37/026	9	{Means for avoiding or neutralising unwanted electrical charges on tube components}	H01J37/02	H01J37/02		512
H01J37/04	9	Arrangements of electrodes and associated parts for generating or controlling the discharge, e.g. electron-optical arrangement or ion-optical arrangement {(H01J37/32009, H01J37/32623, H01J37/3266, H01J37/32697 take precedence; electron or ion-optical systems for localised treatment of objects H01J37/3007)}	H01J37/04	H01J37/04		769
H01J37/045	10	{Beam blanking or chopping, i.e. arrangements for momentarily interrupting exposure to the discharge}	H01J37/04	H01J37/04		507
H01J37/05	10	Electron or ion-optical arrangements for separating electrons or ions according to their energy {or mass}(particle separator tubes H01J49/00)	H01J37/05	H01J37/05		686
H01J37/06	10	Electron sources; Electron guns	H01J37/06	H01J37/06		610
H01J37/061	11	{Electron guns using electron multiplication}	H01J37/06	H01J37/06		8
H01J37/063	11	Geometrical arrangement of electrodes for beam-forming	H01J37/063	H01J37/063		267
H01J37/065	11	Construction of guns or parts thereof (H01J37/067&#160;-&#160;H01J37/077 take precedence)	H01J37/065	H01J37/065		411
H01J37/067	11	Replacing parts of guns; Mutual adjustment of electrodes (H01J37/073&#160;-&#160;H01J37/077 take precedence; vacuum locks H01J37/18)	H01J37/067	H01J37/067		105
H01J37/07	11	Eliminating deleterious effects due to thermal effects or electric or magnetic fields (H01J37/073&#160;-&#160;H01J37/077 take precedence)	H01J37/07	H01J37/07		110
H01J37/073	11	Electron guns using field emission, photo emission, or secondary emission electron sources	H01J37/073	H01J37/073		649
H01J37/075	11	Electron guns using thermionic emission from cathodes heated by particle bombardment or by irradiation, e.g. by laser	H01J37/075	H01J37/075		139
H01J37/077	11	Electron guns using discharge in gases or vapours as electron sources	H01J37/077	H01J37/077		193
H01J37/08	10	Ion sources; Ion guns	H01J37/08	H01J37/08		2349
H01J37/09	10	Diaphragms; Shields associated with electron or ion-optical arrangements; Compensation of disturbing fields	H01J37/09	H01J37/09		906
H01J37/10	10	Lenses	H01J37/10	H01J37/10		401
H01J37/12	11	electrostatic	H01J37/12	H01J37/12		561
H01J37/14	11	magnetic	H01J37/14	H01J37/14		248
H01J37/141	12	Electromagnetic lenses	H01J37/141	H01J37/141		592
H01J37/1413	13	{Means for interchanging parts of the lens, e. g. pole pieces within the tube}	H01J37/141	H01J37/141		27
H01J37/1416	13	{with superconducting coils}	H01J37/141	H01J37/141		31
H01J37/143	12	Permanent magnetic lenses	H01J37/143	H01J37/143		85
H01J37/145	11	Combinations of electrostatic and magnetic lenses	H01J37/145	H01J37/145		219
H01J37/147	10	Arrangements for directing or deflecting the discharge along a desired path ({H01J37/045 take precedence;} lenses H01J37/10)	H01J37/147	H01J37/147		932
H01J37/1471	11	{for centering, aligning or positioning of ray or beam}	H01J37/147	H01J37/147		363
H01J37/1472	11	{Deflecting along given lines}	H01J37/147	H01J37/147		323
H01J37/1474	12	{Scanning means}	H01J37/147	H01J37/147		320
H01J37/1475	13	{magnetic}	H01J37/147	H01J37/147		265
H01J37/1477	13	{electrostatic}	H01J37/147	H01J37/147		188
H01J37/1478	11	{Beam tilting means, i.e. for stereoscopy or for beam channelling}	H01J37/147	H01J37/147		130
H01J37/15	11	External mechanical adjustment of electron or ion optical components (H01J37/067, H01J37/20 take precedence)	H01J37/15	H01J37/15		198
H01J37/153	10	Electron-optical or ion-optical arrangements for the correction of image defects, e.g. stigmators	H01J37/153	H01J37/153		919
H01J37/16	9	Vessels; Containers	H01J37/16	H01J37/16		555
H01J37/165	10	{Means associated with the vessel for preventing the generation of or for shielding unwanted radiation, e.g. X-rays}	H01J37/16	H01J37/16		76
H01J37/18	9	Vacuum locks {; Means for obtaining or maintaining the desired pressure within the vessel}	H01J37/18	H01J37/18		1099
H01J37/185	10	{Means for transferring objects between different enclosures of different pressure or atmosphere}	H01J37/18	H01J37/18		251
H01J37/20	9	Means for supporting or positioning the object or the material; Means for adjusting diaphragms or lenses associated with the support	H01J37/20	H01J37/20		4243
H01J37/21	9	Means for adjusting the focus	H01J37/21	H01J37/21		710
H01J37/22	9	Optical {, image processing} or photographic arrangements associated with the tube	H01J37/22	H01J37/22		615
H01J37/222	10	{Image processing arrangements associated with the tube}	H01J37/22	H01J37/22		1134
H01J37/224	10	{Luminescent screens or photographic plates for imaging; Apparatus specially adapted therefor, e. g. cameras, TV-cameras, photographic equipment or exposure control; Optical subsystems specially adapted therefor, e. g. microscopes for observing image on luminescent screen}	H01J37/22	H01J37/22		369
H01J37/226	10	{Optical arrangements for illuminating the object; optical arrangements for collecting light from the object}	H01J37/22	H01J37/22		277
H01J37/228	11	{whereby illumination or light collection take place in the same area of the discharge}	H01J37/22	H01J37/22		245
H01J37/24	9	Circuit arrangements not adapted to a particular application of the tube and not otherwise provided for	H01J37/24	H01J37/24		325
H01J37/241	10	{High voltage power supply or regulation circuits}	H01J37/24	H01J37/24		270
H01J37/242	10	{Filament heating power supply or regulation circuits (H01J37/241 takes precedence)}	H01J37/24	H01J37/24		67
H01J37/243	10	{Beam current control or regulation circuits (H01J37/241 takes precedence)}	H01J37/24	H01J37/24		201
H01J37/244	9	Detectors; Associated components or circuits therefor	H01J37/244	H01J37/244		3016
H01J37/248	9	Components associated with high voltage supply	H01J37/248	H01J37/248		281
H01J37/252	8	Tubes for spot-analysing by electron or ion beams; Microanalysers	H01J37/252	H01J37/252		406
H01J37/256	9	using scanning beams	H01J37/256	H01J37/256		326
H01J37/26	8	Electron or ion microscopes; Electron or ion diffraction tubes	H01J37/26	H01J37/26		1701
H01J37/261	9	{Details}	H01J37/26	H01J37/26		565
H01J37/263	10	{Contrast, resolution or power of penetration}	H01J37/26	H01J37/26		242
H01J37/265	10	{Controlling the tube; circuit arrangements adapted to a particular application not otherwise provided, e.g. bright-field-dark-field illumination}	H01J37/26	H01J37/26		1011
H01J37/266	9	{Measurement of magnetic or electric fields in the object; Lorentzmicroscopy (spot analysing H01J37/252; emission microscopes H01J37/285; reflecting microscopes H01J37/29)}	H01J37/26	H01J37/26		81
H01J37/268	10	{with scanning beams}	H01J37/26	H01J37/26		168
H01J37/27	9	Shadow microscopy	H01J37/27	H01J37/27		22
H01J37/28	9	with scanning beams {(H01J37/268, H01J37/292, H01J37/2955 take precedence)}	H01J37/28	H01J37/28		5029
H01J37/285	9	Emission microscopes, e.g. field-emission microscopes	H01J37/285	H01J37/285		318
H01J37/29	9	Reflection microscopes	H01J37/29	H01J37/29		111
H01J37/292	10	{using scanning ray}	H01J37/29	H01J37/29		58
H01J37/295	9	Electron or ion diffraction tubes	H01J37/295	H01J37/295		234
H01J37/2955	10	{using scanning ray}	H01J37/295	H01J37/295		101
H01J37/30	8	Electron-beam or ion-beam tubes for localised treatment of objects	H01J37/30	H01J37/30		509
H01J37/3002	9	{Details}	H01J37/30	H01J37/30		321
H01J37/3005	10	{Observing the objects or the point of impact on the object}	H01J37/30	H01J37/30		351
H01J37/3007	10	{Electron or ion-optical systems}	H01J37/30	H01J37/30		753
H01J37/301	9	Arrangements enabling beams to pass between regions of different pressure	H01J37/301	H01J37/301		157
H01J37/302	9	Controlling tubes by external information, e.g. program control (H01J37/304 takes precedence)	H01J37/302	H01J37/302		422
H01J37/3023	10	{Program control}	H01J37/302	H01J37/302		367
H01J37/3026	11	{Patterning strategy}	H01J37/302	H01J37/302		587
H01J37/304	9	Controlling tubes by information coming from the objects {or from the beam}, e.g. correction signals	H01J37/304	H01J37/304		1375
H01J37/3045	10	{Object or beam position registration}	H01J37/304	H01J37/304		778
H01J37/305	9	for casting, melting, evaporating, or etching	H01J37/305	H01J37/305		621
H01J37/3053	10	{for evaporating or etching}	H01J37/305	H01J37/305		975
H01J37/3056	11	{for microworking, e. g. etching of gratings or trimming of electrical components}	H01J37/305	H01J37/305		940
H01J37/31	9	for cutting or drilling	H01J37/31	H01J37/31		156
H01J37/315	9	for welding	H01J37/315	H01J37/315		80
H01J37/317	9	for changing properties of the objects or for applying thin layers thereon, e.g. for ion implantation (H01J37/36 takes precedence)	H01J37/317	H01J37/317		809
H01J37/3171	10	{for ion implantation}	H01J37/317	H01J37/317		3872
H01J37/3172	11	{Maskless patterned ion implantation}	H01J37/317	H01J37/317		79
H01J37/3174	10	{Particle-beam lithography, e.g. electron beam lithography}	H01J37/317	H01J37/317		2424
H01J37/3175	11	{Projection methods, i.e. transfer substantially complete pattern to substrate}	H01J37/317	H01J37/317		227
H01J37/3177	11	{Multi-beam, e.g. fly&apos;s eye, comb probe}	H01J37/317	H01J37/317		915
H01J37/3178	10	{for applying thin layers on objects}	H01J37/317	H01J37/317		321
H01J37/32	8	Gas-filled discharge tubes (heating by discharge H05B)	H01J37/32	H01J37/32		1621
H01J37/32009	9	{Arrangements for generation of plasma specially adapted for examination or treatment of objects, e.g. plasma sources (plasma generation in general H05H1/24)}	H01J37/32	H01J37/32		1640
H01J37/32018	10	{Glow discharge}	H01J37/32	H01J37/32		464
H01J37/32027	11	{DC powered}	H01J37/32	H01J37/32		224
H01J37/32036	11	{AC powered}	H01J37/32	H01J37/32		103
H01J37/32045	11	{Circuits specially adapted for controlling the glow discharge}	H01J37/32	H01J37/32		116
H01J37/32055	10	{Arc discharge}	H01J37/32	H01J37/32		802
H01J37/32064	11	{Circuits specially adapted for controlling the arc discharge (for plasma torches H01H1/36)}	H01J37/32	H01J37/32		88
H01J37/32073	10	{Corona discharge}	H01J37/32	H01J37/32		69
H01J37/32082	10	{Radio frequency generated discharge (H01J37/32357, H01J37/32366, H01J37/32394 and H01J37/32403 take precedence)}	H01J37/32	H01J37/32		3373
H01J37/32091	11	{the radio frequency energy being capacitively coupled to the plasma}	H01J37/32	H01J37/32		2732
H01J37/321	11	{the radio frequency energy being inductively coupled to the plasma}	H01J37/32	H01J37/32		3384
H01J37/3211	12	{Antennas, e.g. particular shapes of coils}	H01J37/32	H01J37/32		1720
H01J37/32119	12	{Windows}	H01J37/32	H01J37/32		478
H01J37/32128	11	{using particular waveforms, e.g. polarised waves}	H01J37/32	H01J37/32		245
H01J37/32137	11	{controlling of the discharge by modulation of energy}	H01J37/32	H01J37/32		290
H01J37/32146	12	{Amplitude modulation, includes pulsing}	H01J37/32	H01J37/32		880
H01J37/32155	12	{Frequency modulation}	H01J37/32	H01J37/32		277
H01J37/32165	13	{Plural frequencies}	H01J37/32	H01J37/32		926
H01J37/32174	11	{Circuits specially adapted for controlling the RF discharge}	H01J37/32	H01J37/32		2784
H01J37/32183	12	{Matching circuits}	H01J37/32	H01J37/32		2026
H01J37/32192	10	{Microwave generated discharge (H01J37/32357, H01J37/32366, H01J37/32394, H01J37/32403 take precedence)}	H01J37/32	H01J37/32		1926
H01J37/32201	11	{Generating means}	H01J37/32	H01J37/32		221
H01J37/32211	11	{Means for coupling power to the plasma}	H01J37/32	H01J37/32		180
H01J37/3222	12	{Antennas}	H01J37/32	H01J37/32		601
H01J37/32229	12	{Waveguides}	H01J37/32	H01J37/32		559
H01J37/32238	12	{Windows}	H01J37/32	H01J37/32		330
H01J37/32247	12	{Resonators}	H01J37/32	H01J37/32		192
H01J37/32256	13	{Tuning means}	H01J37/32	H01J37/32		116
H01J37/32266	11	{Means for controlling power transmitted to the plasma}	H01J37/32	H01J37/32		201
H01J37/32275	12	{Microwave reflectors}	H01J37/32	H01J37/32		57
H01J37/32284	12	{Means for controlling or selecting resonance mode}	H01J37/32	H01J37/32		49
H01J37/32293	11	{using particular waveforms, e.g. polarised waves}	H01J37/32	H01J37/32		71
H01J37/32302	11	{Plural frequencies}	H01J37/32	H01J37/32		51
H01J37/32311	11	{Circuits specially adapted for controlling the microwave discharge}	H01J37/32	H01J37/32		236
H01J37/32321	10	{Discharge generated by other radiation (H01J37/32055, H01J37/32073, H01J37/32082, H01J37/32192, H01J37/32348 take precedence)}	H01J37/32	H01J37/32		87
H01J37/3233	11	{using charged particles}	H01J37/32	H01J37/32		157
H01J37/32339	11	{using electromagnetic radiation}	H01J37/32	H01J37/32		148
H01J37/32348	10	{Dielectric barrier discharge}	H01J37/32	H01J37/32		423
H01J37/32357	10	{Generation remote from the workpiece, e.g. down-stream}	H01J37/32	H01J37/32		2073
H01J37/32366	10	{Localised processing}	H01J37/32	H01J37/32		324
H01J37/32376	11	{Scanning across large workpieces}	H01J37/32	H01J37/32		61
H01J37/32385	11	{Treating the edge of the workpieces}	H01J37/32	H01J37/32		141
H01J37/32394	10	{Treating interior parts of workpieces}	H01J37/32	H01J37/32		102
H01J37/32403	10	{Treating multiple sides of workpieces, e.g. 3D workpieces}	H01J37/32	H01J37/32		143
H01J37/32412	10	{Plasma immersion ion implantation}	H01J37/32	H01J37/32		538
H01J37/32422	10	{Arrangement for selecting ions or species in the plasma}	H01J37/32	H01J37/32		824
H01J37/32431	9	{Constructional details of the reactor}	H01J37/32	H01J37/32		888
H01J37/3244	10	{Gas supply means}	H01J37/32	H01J37/32		6285
H01J37/32449	11	{Gas control, e.g. control of the gas flow}	H01J37/32	H01J37/32		3924
H01J37/32458	10	{Vessel}	H01J37/32	H01J37/32		1078
H01J37/32467	11	{Material}	H01J37/32	H01J37/32		523
H01J37/32477	11	{characterised by the means for protecting vessels or internal parts, e.g. coatings}	H01J37/32	H01J37/32		1235
H01J37/32486	12	{Means for reducing recombination coefficient}	H01J37/32	H01J37/32		30
H01J37/32495	12	{Means for protecting the vessel against plasma}	H01J37/32	H01J37/32		748
H01J37/32504	12	{Means for preventing sputtering of the vessel}	H01J37/32	H01J37/32		117
H01J37/32513	11	{Sealing means, e.g. sealing between different parts of the vessel}	H01J37/32	H01J37/32		675
H01J37/32522	11	{Temperature}	H01J37/32	H01J37/32		1578
H01J37/32532	10	{Electrodes}	H01J37/32	H01J37/32		1648
H01J37/32541	11	{Shape}	H01J37/32	H01J37/32		1448
H01J37/3255	11	{Material}	H01J37/32	H01J37/32		553
H01J37/32559	11	{Protection means, e.g. coatings}	H01J37/32	H01J37/32		508
H01J37/32568	11	{Relative arrangement or disposition of electrodes; moving means}	H01J37/32	H01J37/32		2066
H01J37/32577	11	{Electrical connecting means}	H01J37/32	H01J37/32		733
H01J37/32587	11	{Triode systems}	H01J37/32	H01J37/32		52
H01J37/32596	11	{Hollow cathodes}	H01J37/32	H01J37/32		251
H01J37/32605	11	{Removable or replaceable electrodes or electrode systems}	H01J37/32	H01J37/32		95
H01J37/32614	11	{Consumable cathodes for arc discharge}	H01J37/32	H01J37/32		122
H01J37/32623	10	{Mechanical discharge control means}	H01J37/32	H01J37/32		1537
H01J37/32633	11	{Baffles}	H01J37/32	H01J37/32		568
H01J37/32642	11	{Focus rings}	H01J37/32	H01J37/32		1690
H01J37/32651	11	{Shields, e.g. dark space shields, Faraday shields}	H01J37/32	H01J37/32		804
H01J37/3266	10	{Magnetic control means}	H01J37/32	H01J37/32		1074
H01J37/32669	11	{Particular magnets or magnet arrangements for controlling the discharge}	H01J37/32	H01J37/32		693
H01J37/32678	11	{Electron cyclotron resonance}	H01J37/32	H01J37/32		349
H01J37/32688	11	{Multi-cusp fields}	H01J37/32	H01J37/32		125
H01J37/32697	10	{Electrostatic control}	H01J37/32	H01J37/32		518
H01J37/32706	11	{Polarising the substrate}	H01J37/32	H01J37/32		600
H01J37/32715	10	{Workpiece holder}	H01J37/32	H01J37/32		3918
H01J37/32724	11	{Temperature}	H01J37/32	H01J37/32		2297
H01J37/32733	10	{Means for moving the material to be treated}	H01J37/32	H01J37/32		588
H01J37/32743	11	{for introducing the material into processing chamber}	H01J37/32	H01J37/32		444
H01J37/32752	11	{for moving the material across the discharge}	H01J37/32	H01J37/32		200
H01J37/32761	12	{Continuous moving}	H01J37/32	H01J37/32		147
H01J37/3277	13	{of continuous material}	H01J37/32	H01J37/32		382
H01J37/32779	13	{of batches of workpieces}	H01J37/32	H01J37/32		194
H01J37/32788	11	{for extracting the material from the process chamber}	H01J37/32	H01J37/32		157
H01J37/32798	10	{Further details of plasma apparatus not provided for in groups H01J37/3244 - H01J37/32788; special provisions for cleaning or maintenance of the apparatus}	H01J37/32	H01J37/32		359
H01J37/32807	11	{Construction (includes replacing parts of the apparatus)}	H01J37/32	H01J37/32		440
H01J37/32816	11	{Pressure}	H01J37/32	H01J37/32		521
H01J37/32825	12	{Working under atmospheric pressure or higher}	H01J37/32	H01J37/32		458
H01J37/32834	12	{Exhausting}	H01J37/32	H01J37/32		1349
H01J37/32844	13	{Treating effluent gases}	H01J37/32	H01J37/32		275
H01J37/32853	11	{Hygiene}	H01J37/32	H01J37/32		408
H01J37/32862	12	{In situ cleaning of vessels and/or internal parts}	H01J37/32	H01J37/32		1692
H01J37/32871	12	{Means for trapping or directing unwanted particles}	H01J37/32	H01J37/32		436
H01J37/3288	11	{Maintenance}	H01J37/32	H01J37/32		379
H01J37/32889	11	{Connection or combination with other apparatus}	H01J37/32	H01J37/32		171
H01J37/32899	11	{Multiple chambers, e.g. cluster tools}	H01J37/32	H01J37/32		600
H01J37/32908	11	{Utilities}	H01J37/32	H01J37/32		138
H01J37/32917	9	{Plasma diagnostics}	H01J37/32	H01J37/32		287
H01J37/32926	10	{Software, data control or modelling}	H01J37/32	H01J37/32		482
H01J37/32935	10	{Monitoring and controlling tubes by information coming from the object and/or discharge}	H01J37/32	H01J37/32		2812
H01J37/32944	11	{Arc detection}	H01J37/32	H01J37/32		138
H01J37/32954	11	{Electron temperature measurement}	H01J37/32	H01J37/32		74
H01J37/32963	11	{End-point detection}	H01J37/32	H01J37/32		571
H01J37/32972	11	{Spectral analysis}	H01J37/32	H01J37/32		697
H01J37/32981	11	{Gas analysis}	H01J37/32	H01J37/32		154
H01J37/3299	10	{Feedback systems}	H01J37/32	H01J37/32		858
H01J37/34	9	operating with cathodic sputtering (H01J37/36 takes precedence {; methods of cathodic sputtering C23C14/34})	H01J37/34	H01J37/34		1561
H01J37/3402	10	{using supplementary magnetic fields}	H01J37/34	H01J37/34		334
H01J37/3405	11	{Magnetron sputtering}	H01J37/34	H01J37/34		1800
H01J37/3408	12	{Planar magnetron sputtering}	H01J37/34	H01J37/34		1179
H01J37/3411	10	{Constructional aspects of the reactor}	H01J37/34	H01J37/34		225
H01J37/3414	11	{Targets}	H01J37/34	H01J37/34		332
H01J37/3417	12	{Arrangements}	H01J37/34	H01J37/34		505
H01J37/342	12	{Hollow targets}	H01J37/34	H01J37/34		262
H01J37/3423	12	{Shape}	H01J37/34	H01J37/34		465
H01J37/3426	12	{Material}	H01J37/34	H01J37/34		721
H01J37/3429	13	{Plural materials}	H01J37/34	H01J37/34		493
H01J37/3432	12	{Target-material dispenser}	H01J37/34	H01J37/34		19
H01J37/3435	11	{Target holders (includes backing plates and endblocks)}	H01J37/34	H01J37/34		1023
H01J37/3438	11	{Electrodes other than cathode}	H01J37/34	H01J37/34		271
H01J37/3441	11	{Dark space shields}	H01J37/34	H01J37/34		243
H01J37/3444	11	{Associated circuits}	H01J37/34	H01J37/34		286
H01J37/3447	11	{Collimators, shutters, apertures}	H01J37/34	H01J37/34		533
H01J37/345	11	{Magnet arrangements in particular for cathodic sputtering apparatus (material of magnets or magnets in general H01F1/00, H01F7/00)}	H01J37/34	H01J37/34		315
H01J37/3452	12	{Magnet distribution}	H01J37/34	H01J37/34		433
H01J37/3455	12	{Movable magnets}	H01J37/34	H01J37/34		664
H01J37/3458	12	{Electromagnets in particular for cathodic sputtering apparatus (electromagnets in general H01F7/06)}	H01J37/34	H01J37/34		176
H01J37/3461	11	{Means for shaping the magnetic field, e.g. magnetic shunts}	H01J37/34	H01J37/34		129
H01J37/3464	10	{Operating strategies}	H01J37/34	H01J37/34		147
H01J37/3467	11	{Pulsed operation, e.g. HIPIMS}	H01J37/34	H01J37/34		281
H01J37/347	11	{Thickness uniformity of coated layers or desired profile of target erosion}	H01J37/34	H01J37/34		256
H01J37/3473	11	{Composition uniformity or desired gradient}	H01J37/34	H01J37/34		51
H01J37/3476	10	{Testing and control}	H01J37/34	H01J37/34		177
H01J37/3479	11	{Detecting exhaustion of target material}	H01J37/34	H01J37/34		43
H01J37/3482	11	{Detecting or avoiding eroding through}	H01J37/34	H01J37/34		41
H01J37/3485	11	{Means for avoiding target poisoning}	H01J37/34	H01J37/34		20
H01J37/3488	10	{Constructional details of particle beam apparatus not otherwise provided for, e.g. arrangement, mounting, housing, environment; special provisions for cleaning or maintenance of the apparatus}	H01J37/34	H01J37/34		280
H01J37/3491	11	{Manufacturing of targets}	H01J37/34	H01J37/34		338
H01J37/3494	11	{Adaptation to extreme pressure conditions}	H01J37/34	H01J37/34		30
H01J37/3497	11	{Temperature of target}	H01J37/34	H01J37/34		305
H01J37/36	9	for cleaning surfaces while plating with ions of materials introduced into the discharge, e.g. introduced by evaporation {(condensing of electrically charged vapour onto a surface for covering materials with metals C23C14/32)}	H01J37/36	H01J37/36		71
H01J40/00	7	Photoelectric discharge tubes not involving the ionisation of a gas (H01J49/00 takes precedence)	H01J40/00	H01J40/00		250
H01J40/02	8	Details	H01J40/02	H01J40/02		76
H01J40/04	9	Electrodes	H01J40/04	H01J40/04		266
H01J40/06	10	Photo-emissive cathodes	H01J40/06	H01J40/06		509
H01J40/08	9	Magnetic means for controlling discharge	H01J40/08	H01J40/08		2
H01J40/10	9	Selection of substances for gas fillings	H01J40/10	H01J40/10		11
H01J40/12	9	One or more circuit elements structurally associated with the tube	H01J40/12	H01J40/12		11
H01J40/14	9	Circuit arrangements not adapted to a particular application of the tube and not otherwise provided for	H01J40/14	H01J40/14		420
H01J40/16	8	having photo- emissive cathode, e.g. alkaline photoelectric cell (operating with secondary emission H01J43/00)	H01J40/16	H01J40/16		319
H01J40/18	9	with luminescent coatings for influencing the sensitivity of the tube, e.g. by converting the input wavelength	H01J40/18	H01J40/18		32
H01J40/20	9	wherein a light-ray scans a photo-emissive screen	H01J40/20	H01J40/20		2
H01J41/00	7	Discharge tubes for measuring pressure of introduced gas {or for detecting presence of gas}; Discharge tubes for evacuation by diffusion of ions	H01J41/00	H01J41/00		16
H01J41/02	8	Discharge tubes for measuring pressure of introduced gas {or for detecting presence of gas}	H01J41/02	H01J41/02		92
H01J41/04	9	with ionisation by means of thermionic cathodes	H01J41/04	H01J41/04		297
H01J41/06	9	with ionisation by means of cold cathodes	H01J41/06	H01J41/06		223
H01J41/08	9	with ionisation by means of radioactive substances, e.g. alphatrons	H01J41/08	H01J41/08		79
H01J41/10	9	of particle spectrometer type (particle spectrometers per seH01J49/00)	H01J41/10	H01J41/10		19
H01J41/12	8	Discharge tubes for evacuating by diffusion of ions, e.g. ion pumps, getter ion pumps	H01J41/12	H01J41/12		287
H01J41/14	9	with ionisation by means of thermionic cathodes	H01J41/14	H01J41/14		59
H01J41/16	10	using gettering substances	H01J41/16	H01J41/16		150
H01J41/18	9	with ionisation by means of cold cathodes	H01J41/18	H01J41/18		91
H01J41/20	10	using gettering substances	H01J41/20	H01J41/20		321
H01J43/00	7	Secondary-emission tubes; Electron-multiplier tubes (dynamic electron-multiplier tubes H01J25/76)	H01J43/00	H01J43/00		38
H01J43/02	8	Tubes in which one or a few electrodes are secondary-electron emitting electrodes	H01J43/02	H01J43/02		188
H01J43/025	9	{Circuits therefor}	H01J43/02	H01J43/02		70
H01J43/04	8	Electron multipliers {(if forming part of electron gun H01J3/023)}	H01J43/04	H01J43/04		324
H01J43/045	9	{Position sensitive electron multipliers}	H01J43/04	H01J43/04		64
H01J43/06	9	Electrode arrangements	H01J43/06	H01J43/06		151
H01J43/08	10	Cathode arrangements (construction of photo cathodes H01J40/06, H01J40/16, H01J47/00, H01J49/08)	H01J43/08	H01J43/08		212
H01J43/10	10	Dynodes (H01J43/24, H01J43/26 take precedence)	H01J43/10	H01J43/10		127
H01J43/12	10	Anode arrangements	H01J43/12	H01J43/12		75
H01J43/14	10	Control of electron beam by magnetic field	H01J43/14	H01J43/14		23
H01J43/16	10	Electrode arrangements using essentially one dynode	H01J43/16	H01J43/16		51
H01J43/18	10	Electrode arrangements using essentially more than one dynode	H01J43/18	H01J43/18		123
H01J43/20	11	Dynodes consisting of sheet material, e.g. plane, bent	H01J43/20	H01J43/20		176
H01J43/22	11	Dynodes consisting of electron-permeable material, e.g. foil, grid, tube, venetian blind	H01J43/22	H01J43/22		223
H01J43/24	11	Dynodes having potential gradient along their surfaces	H01J43/24	H01J43/24		260
H01J43/243	12	{Dynodes consisting of a piling-up of channel-type dynode plates}	H01J43/24	H01J43/24		39
H01J43/246	12	{Microchannel plates [MCP] (image amplification tubes using MCP H01J31/507)}	H01J43/24	H01J43/24		529
H01J43/26	11	Box dynodes	H01J43/26	H01J43/26		34
H01J43/28	9	Vessels {, e.g. wall of the tube}; Windows; Screens; Suppressing undesired discharges or currents	H01J43/28	H01J43/28		272
H01J43/30	9	Circuit arrangements not adapted to a particular application of the tube and not otherwise provided for	H01J43/30	H01J43/30		373
H01J45/00	7	Discharge tubes functioning as thermionic generators {(structural combination of fuel element with thermoelectric element G21C3/40; nuclear power plants using thermionic converters G21D7/04; structural combination of a radioactive source with a thermionic converter, e.g. radioisotope batteries G21H1/10; generators in which thermal or kinetic energy is converted into electrical energy by ionisation of a fluid and removal of the charge therefrom H02N3/00)}	H01J45/00	H01J45/00		639
H01J47/00	7	Tubes for determining the presence, intensity, density or energy of radiation or particles ({discharge tubes using igniting by associated radioactive materials or fillings, e.g. current stabilising tubes H01J17/32} ; photoelectric discharge tubes not involving the ionisation of a gas H01J40/00{; discharge tubes for measuring the pressure, partial pressure of introduced gas or for detecting presence of gas H01J41/02; ionisation chambers using a solid dielectric G01T3/008})	H01J47/00	H01J47/00		118
H01J47/001	8	{Details}	H01J47/00	H01J47/00		51
H01J47/002	9	{Vessels or containers}	H01J47/00	H01J47/00		38
H01J47/003	10	{using tissue-equivalent materials}	H01J47/00	H01J47/00		5
H01J47/004	10	{Windows permeable to X-rays, gamma-rays, or particles (windows for discharge tubes with provision for emergence of electrons or ions from the vessel H01J33/04; windows for X-ray tubes H01J35/18)}	H01J47/00	H01J47/00		37
H01J47/005	9	{Gas fillings (H01J47/12 takes precedence); Maintaining the desired pressure within the tube}	H01J47/00	H01J47/00		29
H01J47/006	10	{Tissue equivalent gas fillings}	H01J47/00	H01J47/00		
H01J47/007	8	{Flash detectors}	H01J47/00	H01J47/00		
H01J47/008	8	{Drift detectors}	H01J47/00	H01J47/00		25
H01J47/02	8	Ionisation chambers	H01J47/02	H01J47/02		796
H01J47/022	9	{Calibration thereof}	H01J47/02	H01J47/02		38
H01J47/024	9	{Well-type ionisation chambers}	H01J47/02	H01J47/02		5
H01J47/026	9	{Gas flow ionisation chambers}	H01J47/02	H01J47/02		48
H01J47/028	9	{using a liquid dielectric}	H01J47/02	H01J47/02		13
H01J47/04	9	Capacitive ionisation chambers, e.g. the electrodes of which are used as electrometers	H01J47/04	H01J47/04		235
H01J47/06	8	Proportional counter tubes	H01J47/06	H01J47/06		208
H01J47/062	9	{Multiwire proportional counter tubes}	H01J47/06	H01J47/06		51
H01J47/065	9	{Well-type proportional counter tubes}	H01J47/06	H01J47/06		3
H01J47/067	9	{Gas flow proportional counter tubes}	H01J47/06	H01J47/06		8
H01J47/08	8	Geiger-M&#252;ller counter tubes {(gas filling with very short deionisation times H01J17/64, H01T)}	H01J47/08	H01J47/08		399
H01J47/10	8	Spark counters (H01J47/14 takes precedence; spark gaps H01T)	H01J47/10	H01J47/10		71
H01J47/12	8	Neutron detector tubes, e.g. BF3 tubes	H01J47/12	H01J47/12		187
H01J47/1205	9	{using nuclear reactions of the type (n, alpha) in solid materials, e.g. Boron-10 (n,alpha) Lithium-7, Lithium-6 (n, alpha)Hydrogen-3}	H01J47/12	H01J47/12		9
H01J47/1211	10	{Ionisation chambers}	H01J47/12	H01J47/12		9
H01J47/1216	11	{Gamma compensated}	H01J47/12	H01J47/12		16
H01J47/1222	10	{Proportional counters}	H01J47/12	H01J47/12		9
H01J47/1227	9	{Fission detectors}	H01J47/12	H01J47/12		11
H01J47/1233	10	{Ionisation chambers}	H01J47/12	H01J47/12		19
H01J47/1238	10	{Counters}	H01J47/12	H01J47/12		1
H01J47/1244	11	{Multiwire counters}	H01J47/12	H01J47/12		2
H01J47/125	9	{Helium ionisation detectors}	H01J47/12	H01J47/12		3
H01J47/1255	10	{Ionisation chambers}	H01J47/12	H01J47/12		5
H01J47/1261	10	{Counters}	H01J47/12	H01J47/12		5
H01J47/1266	11	{Multi-wire counters}	H01J47/12	H01J47/12		2
H01J47/1272	9	{BF3 tubes}	H01J47/12	H01J47/12		4
H01J47/1277	9	{Light-nuclei-recoil ionisation detectors, e.g. using protons, alpha-particles}	H01J47/12	H01J47/12		2
H01J47/1283	10	{Ionisation chambers}	H01J47/12	H01J47/12		
H01J47/1288	10	{Counters}	H01J47/12	H01J47/12		
H01J47/1294	11	{Multi-wire counters}	H01J47/12	H01J47/12		1
H01J47/14	8	Parallel electrode spark or streamer chambers; Wire spark or streamer chambers {(circuit arrangements with multi-wire or parallel-plate chambers for recording of movements or tracks of particles G01T5/12)}	H01J47/14	H01J47/14		12
H01J47/16	9	characterised by readout of each individual wire	H01J47/16	H01J47/16		1
H01J47/18	10	the readout being electrical (H01J47/20 takes precedence)	H01J47/18	H01J47/18		2
H01J47/20	10	the readout employing electrical or mechanical delay lines, e.g. magnetostrictive delay lines	H01J47/20	H01J47/20		2
H01J47/22	9	characterised by another type of readout	H01J47/22	H01J47/22		
H01J47/24	10	the readout being acoustical	H01J47/24	H01J47/24		
H01J47/26	10	the readout being optical	H01J47/26	H01J47/26		2
H01J49/00	7	Particle spectrometers or separator tubes<br><br><u>NOTE</u><br><br>In classifying particle separators, no distinction is made between spectrometry and spectrography, the difference being only in the manner of detection which in the first case is electrical and in the second case is by means of a photographic film.	H01J49/00	H01J49/00		440
H01J49/0004	8	{Imaging particle spectrometry}	H01J49/00	H01J49/00		411
H01J49/0009	8	{Calibration of the apparatus}	H01J49/00	H01J49/00		569
H01J49/0013	8	{Miniaturised spectrometers, e.g. having smaller than usual scale, integrated conventional components}	H01J49/00	H01J49/00		138
H01J49/0018	9	{Microminiaturised spectrometers, e.g. chip-integrated devices, Micro-Electro-Mechanical Systems [MEMS]}	H01J49/00	H01J49/00		203
H01J49/0022	8	{Portable spectrometers, e.g. devices comprising independent power supply, constructional details relating to portability (small scale devices per seH01J49/0013 and H01J49/0018)}	H01J49/00	H01J49/00		107
H01J49/0027	8	{Methods for using particle spectrometers}	H01J49/00	H01J49/00		806
H01J49/0031	9	{Step by step routines describing the use of the apparatus (H01J49/0081 takes precedence)}	H01J49/00	H01J49/00		1553
H01J49/0036	9	{Step by step routines describing the handling of the data generated during a measurement}	H01J49/00	H01J49/00		1370
H01J49/004	8	{Combinations of spectrometers, tandem spectrometers, e.g. MS/MS, MSn}	H01J49/00	H01J49/00		913
H01J49/0045	9	{characterised by the fragmentation or other specific reaction}	H01J49/00	H01J49/00		464
H01J49/005	10	{by collision with gas, e.g. by introducing gas or by accelerating ions with an electric field}	H01J49/00	H01J49/00		271
H01J49/0054	10	{by an electron beam, e.g. electron impact dissociation, electron capture dissociation}	H01J49/00	H01J49/00		103
H01J49/0059	10	{by a photon beam, photo-dissociation}	H01J49/00	H01J49/00		59
H01J49/0063	10	{by applying a resonant excitation voltage}	H01J49/00	H01J49/00		53
H01J49/0068	10	{by collision with a surface, e.g. surface induced dissociation}	H01J49/00	H01J49/00		39
H01J49/0072	10	{by ion/ion reaction, e.g. electron transfer dissociation, proton transfer dissociation}	H01J49/00	H01J49/00		164
H01J49/0077	10	{specific reactions other than fragmentation}	H01J49/00	H01J49/00		76
H01J49/0081	9	{Tandem in time, i.e. using a single spectrometer}	H01J49/00	H01J49/00		79
H01J49/0086	9	{Accelerator mass spectrometers}	H01J49/00	H01J49/00		71
H01J49/009	9	{Spectrometers having multiple channels, parallel analysis}	H01J49/00	H01J49/00		110
H01J49/0095	8	{Particular arrangements for generating, introducing or analyzing both positive and negative analyte ions (ion/ion reactions H01J49/0072)}	H01J49/00	H01J49/00		133
H01J49/02	8	Details	H01J49/02	H01J49/02		503
H01J49/022	9	{Circuit arrangements, e.g. for generating deviation currents or voltages (regulating electric or magnetic variables in general, e.g. current, magnetic field G05F); Components associated with high voltage supply (high voltage supply per seH02M)}	H01J49/02	H01J49/02		919
H01J49/025	9	{Detectors specially adapted to particle spectrometers (data acquisition H01J49/0036; detectors per seG01T, e.g. G01T1/28, G01T1/29)}	H01J49/02	H01J49/02		1011
H01J49/027	10	{detecting image current induced by the movement of charged particles (H01J49/38 takes precedence)}	H01J49/02	H01J49/02		117
H01J49/04	9	Arrangements for introducing or extracting samples to be analysed, e.g. vacuum locks; Arrangements for external adjustment of electron- or ion-optical components	H01J49/04	H01J49/04		930
H01J49/0404	10	{Capillaries used for transferring samples or ions (electrospray nozzles H01J49/167)}	H01J49/04	H01J49/04		423
H01J49/0409	10	{Sample holders or containers (containers for retaining a material to be analyzed, B01L3/50, for DNA, C12Q1/6834, for biological materials, G01N33/543)}	H01J49/04	H01J49/04		331
H01J49/0413	11	{for automated handling}	H01J49/04	H01J49/04		93
H01J49/0418	11	{for laser desorption, e.g. matrix-assisted laser desorption/ionisation [MALDI] plates or surface enhanced laser desorption/ionisation [SELDI] plates}	H01J49/04	H01J49/04		624
H01J49/0422	10	{for gaseous samples (interfaces to gas chromatographs G01N30/7206)}	H01J49/04	H01J49/04		657
H01J49/0427	11	{using a membrane permeable to gases}	H01J49/04	H01J49/04		65
H01J49/0431	10	{for liquid samples (interfaces to liquid chromatographs G01N30/7233)}	H01J49/04	H01J49/04		489
H01J49/0436	11	{using a membrane permeable to liquids}	H01J49/04	H01J49/04		36
H01J49/044	11	{with means for preventing droplets from entering the analyzer; Desolvation of droplets}	H01J49/04	H01J49/04		126
H01J49/0445	11	{with means for introducing as a spray, a jet or an aerosol (electrospray ion sources H01J49/165)}	H01J49/04	H01J49/04		295
H01J49/045	12	{with means for using a nebulising gas, i.e. pneumatically assisted}	H01J49/04	H01J49/04		204
H01J49/0454	11	{with means for vaporising using mechanical energy, e.g. by ultrasonic vibrations}	H01J49/04	H01J49/04		88
H01J49/0459	10	{for solid samples}	H01J49/04	H01J49/04		197
H01J49/0463	11	{Desorption by laser or particle beam, followed by ionisation as a separate step (sample holder per seH01J49/0418)}	H01J49/04	H01J49/04		296
H01J49/0468	10	{with means for heating or cooling the sample}	H01J49/04	H01J49/04		344
H01J49/0472	11	{with means for pyrolysis}	H01J49/04	H01J49/04		40
H01J49/0477	11	{using a hot fluid}	H01J49/04	H01J49/04		39
H01J49/0481	11	{with means for collisional cooling}	H01J49/04	H01J49/04		75
H01J49/0486	11	{with means for monitoring the sample temperature}	H01J49/04	H01J49/04		45
H01J49/049	11	{with means for applying heat to desorb the sample; Evaporation}	H01J49/04	H01J49/04		223
H01J49/0495	10	{Vacuum locks; Valves (valves per seF16K)}	H01J49/04	H01J49/04		243
H01J49/06	9	Electron- or ion-optical arrangements	H01J49/06	H01J49/06		585
H01J49/061	10	{Ion deflecting means, e.g. ion gates}	H01J49/06	H01J49/06		414
H01J49/062	10	{Ion guides (linear ion traps performing mass selection H01J49/4225, mass filters H01J49/421)}	H01J49/06	H01J49/06		529
H01J49/063	11	{Multipole ion guides, e.g. quadrupoles, hexapoles}	H01J49/06	H01J49/06		599
H01J49/065	11	{having stacked electrodes, e.g. ring stack, plate stack}	H01J49/06	H01J49/06		252
H01J49/066	12	{Ion funnels}	H01J49/06	H01J49/06		150
H01J49/067	10	{Ion lenses, apertures, skimmers}	H01J49/06	H01J49/06		538
H01J49/068	10	{Mounting, supporting, spacing, or insulating electrodes}	H01J49/06	H01J49/06		202
H01J49/08	9	Electron sources, e.g. for generating photo-electrons, secondary electrons or Auger electrons	H01J49/08	H01J49/08		96
H01J49/10	9	Ion sources; Ion guns	H01J49/10	H01J49/10		836
H01J49/102	10	{using reflex discharge, e.g. Penning ion sources}	H01J49/10	H01J49/10		40
H01J49/105	10	{using high-frequency excitation, e.g. microwave excitation, Inductively Coupled Plasma [ICP]}	H01J49/10	H01J49/10		653
H01J49/107	10	{Arrangements for using several ion sources}	H01J49/10	H01J49/10		246
H01J49/12	10	using an arc discharge, e.g. of the duoplasmatron type	H01J49/12	H01J49/12		101
H01J49/123	11	{Duoplasmatrons}	H01J49/12	H01J49/12		11
H01J49/126	11	{Other arc discharge ion sources using an applied magnetic field}	H01J49/12	H01J49/12		73
H01J49/14	10	using particle bombardment, e.g. ionisation chambers	H01J49/14	H01J49/14		409
H01J49/142	11	{using a solid target which is not previously vapourised}	H01J49/14	H01J49/14		321
H01J49/145	11	{using chemical ionisation}	H01J49/14	H01J49/14		333
H01J49/147	11	{with electrons, e.g. electron impact ionisation, electron attachment (H01J49/145 takes precedence)}	H01J49/14	H01J49/14		347
H01J49/16	10	using surface ionisation, e.g. field-, thermionic- or photo-emission	H01J49/16	H01J49/16		345
H01J49/161	11	{using photoionisation, e.g. by laser}	H01J49/16	H01J49/16		265
H01J49/162	12	{Direct photo-ionisation, e.g. single photon or multi-photon ionisation}	H01J49/16	H01J49/16		247
H01J49/164	12	{Laser desorption/ionisation, e.g. matrix-assisted laser desorption/ionisation [MALDI] (sample holders H01J49/0418)}	H01J49/16	H01J49/16		751
H01J49/165	11	{Electrospray ionisation}	H01J49/16	H01J49/16		889
H01J49/167	12	{Capillaries and nozzles specially adapted therefor; (electrostatic spraying per seB05B5/00)}	H01J49/16	H01J49/16		398
H01J49/168	11	{field ionisation, e.g. corona discharge (atmospheric pressure corona discharge per seH01T19/00)}	H01J49/16	H01J49/16		230
H01J49/18	10	using spark ionisation	H01J49/18	H01J49/18		55
H01J49/20	9	Magnetic deflection	H01J49/20	H01J49/20		127
H01J49/22	9	Electrostatic deflection	H01J49/22	H01J49/22		95
H01J49/24	9	Vacuum systems, e.g. maintaining desired pressures	H01J49/24	H01J49/24		572
H01J49/26	8	Mass spectrometers or separator tubes	H01J49/26	H01J49/26		1453
H01J49/28	9	Static spectrometers	H01J49/28	H01J49/28		79
H01J49/282	10	{using electrostatic analysers}	H01J49/28	H01J49/28		90
H01J49/284	10	{using electrostatic and magnetic sectors with simple focusing, e.g. with parallel fields such as Aston spectrometer}	H01J49/28	H01J49/28		28
H01J49/286	11	{with energy analysis, e.g. Castaing filter (in cathode-ray or electron-beam tubes H01J29/84; electron- or ion-optical arrangements for separating electrons or ions from an analysing or processing beam H01J37/05; micro- or spot-analysing tubes H01J37/252)}	H01J49/28	H01J49/28		24
H01J49/288	12	{using crossed electric and magnetic fields perpendicular to the beam, e.g. Wien filter}	H01J49/28	H01J49/28		80
H01J49/30	10	using magnetic analysers {, e.g. Dempster spectrometer}	H01J49/30	H01J49/30		342
H01J49/305	11	{with several sectors in tandem}	H01J49/30	H01J49/30		15
H01J49/32	10	using double focusing	H01J49/32	H01J49/32		112
H01J49/322	11	{with a magnetic sector of 90 degrees, e.g. Mattauch-Herzog type}	H01J49/32	H01J49/32		29
H01J49/324	11	{with an electrostatic section of 90 degrees, e.g. Nier-Johnson type}	H01J49/32	H01J49/32		5
H01J49/326	11	{with magnetic and electrostatic sectors of 90 degrees}	H01J49/32	H01J49/32		55
H01J49/328	11	{with a cycloidal trajectory by using crossed electric and magnetic fields, e.g. trochoidal type}	H01J49/32	H01J49/32		61
H01J49/34	9	Dynamic spectrometers	H01J49/34	H01J49/34		114
H01J49/36	10	Radio frequency spectrometers, e.g. Bennett-type spectrometers, Redhead-type spectrometers	H01J49/36	H01J49/36		122
H01J49/38	11	Omegatrons {; using ion cyclotron resonance}	H01J49/38	H01J49/38		277
H01J49/40	10	Time-of-flight spectrometers (H01J49/36 takes precedence)	H01J49/40	H01J49/40		1388
H01J49/401	11	{characterised by orthogonal acceleration, e.g. focusing or selecting the ions, pusher electrode}	H01J49/40	H01J49/40		239
H01J49/403	11	{characterised by the acceleration optics and/or the extraction fields}	H01J49/40	H01J49/40		171
H01J49/405	11	{characterised by the reflectron, e.g. curved field, electrode shapes}	H01J49/40	H01J49/40		184
H01J49/406	11	{with multiple reflections}	H01J49/40	H01J49/40		164
H01J49/408	11	{with multiple changes of direction, e.g. by using electric or magnetic sectors, closed-loop time-of-flight}	H01J49/40	H01J49/40		132
H01J49/42	10	Stability-of-path spectrometers, e.g. monopole, quadrupole, multipole, farvitrons	H01J49/42	H01J49/42		372
H01J49/4205	11	{Device types}	H01J49/42	H01J49/42		81
H01J49/421	12	{Mass filters, i.e. deviating unwanted ions without trapping}	H01J49/42	H01J49/42		229
H01J49/4215	13	{Quadrupole mass filters (H01J49/4225 takes precedence)}	H01J49/42	H01J49/42		633
H01J49/422	12	{Two-dimensional RF ion traps (ion guides without mass selection H01J49/062)}	H01J49/42	H01J49/42		169
H01J49/4225	13	{Multipole linear ion traps, e.g. quadrupoles, hexapoles}	H01J49/42	H01J49/42		472
H01J49/423	13	{with radial ejection}	H01J49/42	H01J49/42		89
H01J49/4235	13	{Stacked rings or stacked plates}	H01J49/42	H01J49/42		81
H01J49/424	12	{Three-dimensional ion traps, i.e. comprising end-cap and ring electrodes}	H01J49/42	H01J49/42		372
H01J49/4245	12	{Electrostatic ion traps (H01J49/422 takes precedence)}	H01J49/42	H01J49/42		161
H01J49/425	13	{with a logarithmic radial electric potential, e.g. orbitraps}	H01J49/42	H01J49/42		87
H01J49/4255	12	{with particular constructional features}	H01J49/42	H01J49/42		186
H01J49/426	11	{Methods for controlling ions}	H01J49/42	H01J49/42		151
H01J49/4265	12	{Controlling the number of trapped ions; preventing space charge effects}	H01J49/42	H01J49/42		146
H01J49/427	12	{Ejection and selection methods}	H01J49/42	H01J49/42		203
H01J49/4275	13	{Applying a non-resonant auxiliary oscillating voltage, e.g. parametric excitation}	H01J49/42	H01J49/42		25
H01J49/428	13	{Applying a notched broadband signal}	H01J49/42	H01J49/42		42
H01J49/4285	13	{Applying a resonant signal, e.g. selective resonant ejection matching the secular frequency of ions (H01J49/429, H01J49/428 take precedence)}	H01J49/42	H01J49/42		43
H01J49/429	13	{Scanning an electric parameter, e.g. voltage amplitude or frequency}	H01J49/42	H01J49/42		125
H01J49/4295	12	{Storage methods}	H01J49/42	H01J49/42		101
H01J49/44	8	Energy spectrometers, e.g. alpha-, beta-spectrometers	H01J49/44	H01J49/44		62
H01J49/443	9	{Dynamic spectrometers}	H01J49/44	H01J49/44		13
H01J49/446	10	{Time-of-flight spectrometers}	H01J49/44	H01J49/44		34
H01J49/46	9	Static spectrometers	H01J49/46	H01J49/46		68
H01J49/463	10	{using static magnetic fields}	H01J49/46	H01J49/46		13
H01J49/466	10	{using crossed electric and magnetic fields perpendicular to the beam, e.g. Wien filter (see also H01J49/288)}	H01J49/46	H01J49/46		24
H01J49/48	10	using electrostatic analysers, e.g. cylindrical sector, Wien filter	H01J49/48	H01J49/48		156
H01J49/482	11	{with cylindrical mirrors}	H01J49/48	H01J49/48		65
H01J49/484	11	{with spherical mirrors}	H01J49/48	H01J49/48		55
H01J49/486	11	{with plane mirrors, i.e. uniform field}	H01J49/48	H01J49/48		15
H01J49/488	11	{with retarding grids}	H01J49/48	H01J49/48		77
H01J61/00	7	Gas-discharge or vapour-discharge lamps (arc lamps with consumable electrodes H05B; electroluminescent lamps H05B)	H01J61/00	H01J61/00		248
H01J61/02	8	Details	H01J61/02	H01J61/02		220
H01J61/025	9	{Associated optical elements}	H01J61/02	H01J61/02		814
H01J61/04	9	Electrodes (for igniting H01J61/54); Screens; Shields	H01J61/04	H01J61/04		502
H01J61/045	10	{Thermic screens or reflectors (heat-reflecting coatings on the wall of the vessel H01J61/35)}	H01J61/04	H01J61/04		168
H01J61/06	10	Main electrodes	H01J61/06	H01J61/06		358
H01J61/067	11	for low-pressure discharge lamps	H01J61/067	H01J61/067		427
H01J61/0672	12	{characterised by the construction of the electrode}	H01J61/067	H01J61/067		812
H01J61/0675	12	{characterised by the material of the electrode}	H01J61/067	H01J61/067		241
H01J61/0677	13	{characterised by the electron emissive material}	H01J61/067	H01J61/067		191
H01J61/073	11	for high-pressure discharge lamps	H01J61/073	H01J61/073		282
H01J61/0732	12	{characterised by the construction of the electrode}	H01J61/073	H01J61/073		814
H01J61/0735	12	{characterised by the material of the electrode}	H01J61/073	H01J61/073		254
H01J61/0737	13	{characterised by the electron emissive material}	H01J61/073	H01J61/073		144
H01J61/09	11	Hollow cathodes	H01J61/09	H01J61/09		231
H01J61/10	10	Shields, screens, or guides for influencing the discharge	H01J61/10	H01J61/10		325
H01J61/103	11	{Shields, screens or guides arranged to extend the discharge path (H01J61/106 takes precedence)}	H01J61/10	H01J61/10		245
H01J61/106	11	{using magnetic means}	H01J61/10	H01J61/10		130
H01J61/12	9	Selection of substances for gas fillings; Specified operating pressure or temperature	H01J61/12	H01J61/12		499
H01J61/125	10	{having an halogenide as principal component}	H01J61/12	H01J61/12		682
H01J61/14	10	having one or more carbon compounds as the principal constituents	H01J61/14	H01J61/14		47
H01J61/16	10	having helium, argon, neon, krypton, or xenon as the principle constituent	H01J61/16	H01J61/16		712
H01J61/18	10	having a metallic vapour as the principal constituent	H01J61/18	H01J61/18		326
H01J61/20	11	mercury vapour	H01J61/20	H01J61/20		522
H01J61/22	11	vapour of an alkali metal	H01J61/22	H01J61/22		152
H01J61/24	9	Means for obtaining or maintaining the desired pressure within the vessel	H01J61/24	H01J61/24		295
H01J61/26	10	Means for absorbing or adsorbing gas, e.g. by gettering; Means for preventing blackening of the envelope	H01J61/26	H01J61/26		441
H01J61/28	10	Means for producing, introducing, or replenishing gas or vapour during operation of the lamp	H01J61/28	H01J61/28		557
H01J61/30	9	Vessels; Containers	H01J61/30	H01J61/30		1432
H01J61/302	10	{characterised by the material of the vessel}	H01J61/30	H01J61/30		775
H01J61/305	10	{Flat vessels or containers}	H01J61/30	H01J61/30		1012
H01J61/307	11	{with folded elongated discharge path}	H01J61/30	H01J61/30		269
H01J61/32	10	Special longitudinal shape, e.g. for advertising purposes {(H01J61/305 takes precedence)}	H01J61/32	H01J61/32		277
H01J61/322	11	{Circular lamps}	H01J61/32	H01J61/32		95
H01J61/325	11	{U-shaped lamps}	H01J61/32	H01J61/32		197
H01J61/327	11	{"Compact"-lamps, i.e. lamps having a folded discharge path}	H01J61/32	H01J61/32		957
H01J61/33	10	Special shape of cross-section, e.g. for producing cool spot	H01J61/33	H01J61/33		396
H01J61/34	10	Double-wall vessels or containers	H01J61/34	H01J61/34		1536
H01J61/35	10	provided with coatings on the walls thereof; Selection of materials for the coatings (using coloured coatings H01J61/40; using luminescent coatings H01J61/42)	H01J61/35	H01J61/35		1560
H01J61/36	9	Seals between parts of vessels; Seals for leading-in conductors; Leading-in conductors	H01J61/36	H01J61/36		952
H01J61/361	10	{Seals between parts of vessel}	H01J61/36	H01J61/36		225
H01J61/363	11	{End-disc seals or plug seals}	H01J61/36	H01J61/36		165
H01J61/365	11	{Annular seals disposed between the ends of the vessel (H01J61/363 takes precedence)}	H01J61/36	H01J61/36		28
H01J61/366	10	{Seals for leading-in conductors}	H01J61/36	H01J61/36		631
H01J61/368	11	{Pinched seals or analogous seals}	H01J61/36	H01J61/36		339
H01J61/38	9	Devices for influencing the colour or wavelength of the light	H01J61/38	H01J61/38		166
H01J61/40	10	by light filters; by coloured coatings in or on the envelope	H01J61/40	H01J61/40		464
H01J61/42	10	by transforming the wavelength of the light by luminescence	H01J61/42	H01J61/42		570
H01J61/44	11	Devices characterised by the luminescent material	H01J61/44	H01J61/44		1019
H01J61/46	11	Devices characterised by the binder or other non-luminescent constituent of the luminescent material, e.g. for obtaining desired pouring or drying properties	H01J61/46	H01J61/46		194
H01J61/48	11	Separate coatings of different luminous materials	H01J61/48	H01J61/48		192
H01J61/50	9	Auxiliary parts or solid material within the envelope for reducing risk of explosion upon breakage of the envelope, e.g. for use in mines	H01J61/50	H01J61/50		177
H01J61/52	9	Cooling arrangements; Heating arrangements; Means for circulating gas or vapour within the discharge space {(heating or cooling arrangements to promote ionisation for starting H01J61/54)}	H01J61/52	H01J61/52		1056
H01J61/523	10	{Heating or cooling particular parts of the lamp}	H01J61/52	H01J61/52		547
H01J61/526	11	{heating or cooling of electrodes}	H01J61/52	H01J61/52		177
H01J61/54	9	Igniting arrangements, e.g. promoting ionisation for starting	H01J61/54	H01J61/54		672
H01J61/541	10	{using a bimetal switch}	H01J61/54	H01J61/54		132
H01J61/542	11	{and an auxiliary electrode inside the vessel}	H01J61/54	H01J61/54		59
H01J61/544	11	{and an auxiliary electrode outside the vessel}	H01J61/54	H01J61/54		98
H01J61/545	10	{using an auxiliary electrode inside the vessel (H01J61/542 takes precedence)}	H01J61/54	H01J61/54		351
H01J61/547	10	{using an auxiliary electrode outside the vessel (H01J61/544 takes precedence)}	H01J61/54	H01J61/54		465
H01J61/548	10	{using radioactive means to promote ionisation}	H01J61/54	H01J61/54		39
H01J61/56	9	One or more circuit elements structurally associated with the lamp	H01J61/56	H01J61/56		1304
H01J61/58	8	Lamps with both liquid anode and liquid cathode	H01J61/58	H01J61/58		100
H01J61/60	8	Lamps in which the discharge space is substantially filled with mercury before ignition	H01J61/60	H01J61/60		9
H01J61/62	8	Lamps with gaseous cathode, e.g. plasma cathode	H01J61/62	H01J61/62		45
H01J61/64	8	Cathode glow lamps	H01J61/64	H01J61/64		209
H01J61/66	9	having one or more specially shaped cathodes, e.g. for advertising purposes {alphanumeric}	H01J61/66	H01J61/66		22
H01J61/68	8	Lamps in which the main discharge is between parts of a current-carrying guide, e.g. halo lamp	H01J61/68	H01J61/68		63
H01J61/70	8	Lamps with low-pressure unconstricted discharge {having a cold pressure &lt; 400 Torr}	H01J61/70	H01J61/70		421
H01J61/72	9	having a main light-emitting filling of easily vaporisable metal vapour, e.g. mercury	H01J61/72	H01J61/72		1010
H01J61/74	9	having a main light-emitting filling of difficult vaporisable metal vapour, e.g. sodium	H01J61/74	H01J61/74		62
H01J61/76	9	having a filling of permanent gas or gases only	H01J61/76	H01J61/76		85
H01J61/78	10	with cold cathode; with cathode heated only by discharge, e.g. high-tension lamp for advertising	H01J61/78	H01J61/78		306
H01J61/80	9	Lamps suitable only for intermittent operation, e.g. flash lamp	H01J61/80	H01J61/80		180
H01J61/82	8	Lamps with high-pressure unconstricted discharge {having a cold pressure &gt; 400 Torr}	H01J61/82	H01J61/82		433
H01J61/822	9	{High-pressure mercury lamps}	H01J61/82	H01J61/82		250
H01J61/825	9	{High-pressure sodium lamps}	H01J61/82	H01J61/82		162
H01J61/827	9	{Metal halide arc lamps}	H01J61/82	H01J61/82		806
H01J61/84	8	Lamps with discharge constricted by high pressure	H01J61/84	H01J61/84		76
H01J61/86	9	with discharge additionally constricted by close spacing of electrodes, e.g. for optical projection	H01J61/86	H01J61/86		729
H01J61/88	9	with discharge additionally constricted by envelope	H01J61/88	H01J61/88		54
H01J61/90	9	Lamps suitable only for intermittent operation, e.g. flash lamp	H01J61/90	H01J61/90		219
H01J61/92	8	Lamps with more than one main discharge path	H01J61/92	H01J61/92		328
H01J61/94	9	Paths producing light of different wavelengths, e.g. for simulating daylight	H01J61/94	H01J61/94		128
H01J61/95	8	Lamps with control electrode for varying intensity or wavelength of the light, e.g. for producing modulated light	H01J61/95	H01J61/95		39
H01J61/96	8	Lamps with light-emitting discharge path and separately-heated incandescent body within a common envelope, e.g. for simulating daylight	H01J61/96	H01J61/96		282
H01J61/98	8	Lamps with closely spaced electrodes heated to incandescence by light-emitting discharge, e.g. tungsten arc lamp	H01J61/98	H01J61/98		196
H01J63/00	7	Cathode-ray or electron-stream lamps	H01J63/00	H01J63/00		117
H01J63/02	8	Details, e.g. electrode, gas filling, shape of vessel	H01J63/02	H01J63/02		280
H01J63/04	9	Vessels provided with luminescent coatings; Selection of materials for the coatings	H01J63/04	H01J63/04		186
H01J63/06	8	Lamps with luminescent screen excited by the ray or stream	H01J63/06	H01J63/06		449
H01J63/08	8	Lamps with gas plasma excited by the ray or stream	H01J63/08	H01J63/08		51
H01J65/00	7	Lamps without any electrode inside the vessel; Lamps with at least one main electrode outside the vessel	H01J65/00	H01J65/00		392
H01J65/04	8	Lamps in which a gas filling is excited to luminesce by an external electromagnetic field or by external corpuscular radiation, e.g. for indicating {plasma display panels}	H01J65/04	H01J65/04		664
H01J65/042	9	{by an external electromagnetic field}	H01J65/04	H01J65/04		389
H01J65/044	10	{the field being produced by a separate microwave unit}	H01J65/04	H01J65/04		867
H01J65/046	10	{the field being produced by using capacitive means around the vessel}	H01J65/04	H01J65/04		1172
H01J65/048	10	{the field being produced by using an excitation coil}	H01J65/04	H01J65/04		642
H01J65/06	8	Lamps in which a gas filling is excited to luminesce by radioactive material structurally associated with the lamp, e.g. inside the vessel	H01J65/06	H01J65/06		42
H01J65/08	8	Lamps in which a screen or coating is excited to luminesce by radioactive material located inside the vessel {(direct conversion of radiation energy from radioactive sources into light G21H3/02)}	H01J65/08	H01J65/08		87
H01J99/00	7	Subject matter not provided for in other groups of this subclass	H01J99/00	H01J99/00		2
H01J2201/00	7	Electrodes common to discharge tubes	CPCONLY	H01J2201/00		1
H01J2201/02	8	Arrangements for eliminating deleterious effects	CPCONLY	H01J2201/02		12
H01J2201/025	9	charging	CPCONLY	H01J2201/025		14
H01J2201/19	8	Thermionic cathodes	CPCONLY	H01J2201/19		23
H01J2201/193	9	Thin film cathodes	CPCONLY	H01J2201/193		6
H01J2201/196	9	Emission assisted by other physical processes, e.g. field- or photo emission	CPCONLY	H01J2201/196		25
H01J2201/28	8	Heaters for thermionic cathodes	CPCONLY	H01J2201/28		19
H01J2201/2803	9	Characterised by the shape or size	CPCONLY	H01J2201/2803		9
H01J2201/2807	10	Block	CPCONLY	H01J2201/2807		
H01J2201/281	10	Cage-like construction	CPCONLY	H01J2201/281		5
H01J2201/2814	11	being a mesh-like network	CPCONLY	H01J2201/2814		1
H01J2201/2817	10	Rods	CPCONLY	H01J2201/2817		3
H01J2201/2821	10	Envelope or cross-section	CPCONLY	H01J2201/2821		
H01J2201/2825	11	being oval or elliptic	CPCONLY	H01J2201/2825		
H01J2201/2828	11	being rectangular or square	CPCONLY	H01J2201/2828		
H01J2201/2832	11	being circular	CPCONLY	H01J2201/2832		1
H01J2201/2835	10	Folded	CPCONLY	H01J2201/2835		1
H01J2201/2839	11	Hair-pin or simple bend	CPCONLY	H01J2201/2839		4
H01J2201/2842	10	Conic	CPCONLY	H01J2201/2842		1
H01J2201/2846	10	Loop	CPCONLY	H01J2201/2846		
H01J2201/285	10	Plurality of elements	CPCONLY	H01J2201/285		2
H01J2201/2853	10	Serpentine	CPCONLY	H01J2201/2853		2
H01J2201/2857	11	being coiled	CPCONLY	H01J2201/2857		2
H01J2201/286	11	being looped	CPCONLY	H01J2201/286		
H01J2201/2864	10	Ribbon or bar	CPCONLY	H01J2201/2864		
H01J2201/2867	10	Spiral or helix	CPCONLY	H01J2201/2867		9
H01J2201/2871	11	being flattened	CPCONLY	H01J2201/2871		1
H01J2201/2875	11	being double, reverse helix or interwoven	CPCONLY	H01J2201/2875		2
H01J2201/2878	10	Thin film or film-like	CPCONLY	H01J2201/2878		9
H01J2201/2882	10	Variable winding density	CPCONLY	H01J2201/2882		2
H01J2201/2885	10	Twisted	CPCONLY	H01J2201/2885		
H01J2201/2889	9	Characterised by material	CPCONLY	H01J2201/2889		8
H01J2201/2892	9	Coatings	CPCONLY	H01J2201/2892		6
H01J2201/2896	10	Insulating layers	CPCONLY	H01J2201/2896		6
H01J2201/30	8	Cold cathodes	CPCONLY	H01J2201/30		12
H01J2201/304	9	Field emission cathodes	CPCONLY	H01J2201/304		99
H01J2201/30403	10	characterised by the emitter shape	CPCONLY	H01J2201/30403		151
H01J2201/30407	11	Microengineered point emitters	CPCONLY	H01J2201/30407		43
H01J2201/30411	12	conical shaped, e.g. Spindt type	CPCONLY	H01J2201/30411		42
H01J2201/30415	12	needle shaped	CPCONLY	H01J2201/30415		38
H01J2201/30419	11	Pillar shaped emitters	CPCONLY	H01J2201/30419		7
H01J2201/30423	11	Microengineered edge emitters	CPCONLY	H01J2201/30423		68
H01J2201/30426	11	Coatings on the emitter surface, e.g. with low work function materials	CPCONLY	H01J2201/30426		109
H01J2201/3043	11	Fibres	CPCONLY	H01J2201/3043		31
H01J2201/30434	11	Nanotubes	CPCONLY	H01J2201/30434		66
H01J2201/30438	11	Particles	CPCONLY	H01J2201/30438		4
H01J2201/30442	11	Whiskers	CPCONLY	H01J2201/30442		1
H01J2201/30446	10	characterised by the emitter material	CPCONLY	H01J2201/30446		174
H01J2201/30449	11	Metals and metal alloys	CPCONLY	H01J2201/30449		68
H01J2201/30453	11	Carbon types	CPCONLY	H01J2201/30453		202
H01J2201/30457	12	Diamond	CPCONLY	H01J2201/30457		209
H01J2201/30461	12	Graphite	CPCONLY	H01J2201/30461		27
H01J2201/30465	12	Fullerenes	CPCONLY	H01J2201/30465		2
H01J2201/30469	12	Carbon nanotubes (CNTs)	CPCONLY	H01J2201/30469		1213
H01J2201/30473	12	Amorphous carbon	CPCONLY	H01J2201/30473		3
H01J2201/30476	12	Diamond-like carbon [DLC]	CPCONLY	H01J2201/30476		11
H01J2201/3048	11	Semiconductor materials	CPCONLY	H01J2201/3048		28
H01J2201/30484	11	Carbides	CPCONLY	H01J2201/30484		22
H01J2201/30488	11	Nitrides	CPCONLY	H01J2201/30488		18
H01J2201/30492	11	Borides	CPCONLY	H01J2201/30492		13
H01J2201/30496	11	Oxides	CPCONLY	H01J2201/30496		31
H01J2201/306	9	Ferroelectric cathodes	CPCONLY	H01J2201/306		54
H01J2201/308	9	Semiconductor cathodes, e.g. having PN junction layers	CPCONLY	H01J2201/308		26
H01J2201/312	9	having an electric field perpendicular to the surface thereof	CPCONLY	H01J2201/312		7
H01J2201/3125	10	Metal-insulator-Metal [MIM] emission type cathodes	CPCONLY	H01J2201/3125		105
H01J2201/316	9	having an electric field parallel to the surface thereof, e.g. thin film cathodes	CPCONLY	H01J2201/316		6
H01J2201/3165	10	Surface conduction emission type cathodes	CPCONLY	H01J2201/3165		456
H01J2201/317	9	combined with other synergetic effects, e.g. secondary, photo- or thermal emission	CPCONLY	H01J2201/317		31
H01J2201/319	9	Circuit elements associated with the emitters by direct integration	CPCONLY	H01J2201/319		270
H01J2201/3195	10	Resistive members, e.g. resistive layers	CPCONLY	H01J2201/3195		33
H01J2201/32	8	Secondary emission electrodes	CPCONLY	H01J2201/32		239
H01J2201/34	8	Photoemissive electrodes	CPCONLY	H01J2201/34		29
H01J2201/342	9	Cathodes	CPCONLY	H01J2201/342		34
H01J2201/3421	10	Composition of the emitting surface	CPCONLY	H01J2201/3421		18
H01J2201/3423	11	Semiconductors, e.g. GaAs, NEA emitters	CPCONLY	H01J2201/3423		199
H01J2201/3425	11	Metals, metal alloys	CPCONLY	H01J2201/3425		52
H01J2201/3426	11	Alkaline metal compounds, e.g. Na-K-Sb	CPCONLY	H01J2201/3426		72
H01J2201/3428	11	Organo-metallic compounds, e.g. Ferrocene	CPCONLY	H01J2201/3428		1
H01J2203/00	7	Electron or ion optical arrangements common to discharge tubes or lamps	CPCONLY	H01J2203/00		
H01J2203/02	8	Electron guns	CPCONLY	H01J2203/02		6
H01J2203/0204	9	using cold cathodes, e.g. field emission cathodes	CPCONLY	H01J2203/0204		13
H01J2203/0208	10	Control electrodes	CPCONLY	H01J2203/0208		11
H01J2203/0212	11	Gate electrodes	CPCONLY	H01J2203/0212		24
H01J2203/0216	12	characterised by the form or structure	CPCONLY	H01J2203/0216		43
H01J2203/022	13	Shapes or dimensions of gate openings	CPCONLY	H01J2203/022		8
H01J2203/0224	13	Arrangement of gate openings	CPCONLY	H01J2203/0224		5
H01J2203/0228	13	Curved/extending upwardly	CPCONLY	H01J2203/0228		6
H01J2203/0232	12	characterised by the material	CPCONLY	H01J2203/0232		31
H01J2203/0236	12	Relative position to the emitters, cathodes or substrates	CPCONLY	H01J2203/0236		17
H01J2203/024	11	Focusing electrodes	CPCONLY	H01J2203/024		23
H01J2203/0244	12	characterised by the form or structure	CPCONLY	H01J2203/0244		12
H01J2203/0248	13	Shapes or dimensions of focusing electrode openings	CPCONLY	H01J2203/0248		4
H01J2203/0252	13	Arrangement of focusing electrode openings	CPCONLY	H01J2203/0252		2
H01J2203/0256	12	characterised by the material	CPCONLY	H01J2203/0256		3
H01J2203/026	12	Relative position to the gateelectrodes, emitters, cathodes or substrates	CPCONLY	H01J2203/026		6
H01J2203/0264	13	In the same plane as the gate electrodes or cathodes	CPCONLY	H01J2203/0264		
H01J2203/0268	10	Insulation layer	CPCONLY	H01J2203/0268		14
H01J2203/0272	11	for gate electrodes	CPCONLY	H01J2203/0272		34
H01J2203/0276	11	for focusing electrodes	CPCONLY	H01J2203/0276		2
H01J2203/028	11	characterised by the shape	CPCONLY	H01J2203/028		14
H01J2203/0284	12	Dimensions of openings	CPCONLY	H01J2203/0284		5
H01J2203/0288	11	characterised by the material	CPCONLY	H01J2203/0288		16
H01J2203/0292	10	Potentials applied to the electrodes	CPCONLY	H01J2203/0292		11
H01J2203/0296	9	Spin-polarised beams	CPCONLY	H01J2203/0296		15
H01J2203/04	8	Ion guns	CPCONLY	H01J2203/04		6
H01J2209/00	7	Apparatus and processes for manufacture of discharge tubes	CPCONLY	H01J2209/00		6
H01J2209/01	8	Generalised techniques	CPCONLY	H01J2209/01		2
H01J2209/012	9	Coating	CPCONLY	H01J2209/012		208
H01J2209/015	10	Machines therefor	CPCONLY	H01J2209/015		598
H01J2209/017	9	Cleaning	CPCONLY	H01J2209/017		494
H01J2209/02	8	Manufacture of cathodes	CPCONLY	H01J2209/02		42
H01J2209/022	9	Cold cathodes	CPCONLY	H01J2209/022		8
H01J2209/0223	10	Field emission cathodes	CPCONLY	H01J2209/0223		66
H01J2209/0226	11	Sharpening or resharpening of emitting point or edge	CPCONLY	H01J2209/0226		44
H01J2209/18	8	Assembling together the component parts of the discharge tube	CPCONLY	H01J2209/18		34
H01J2209/185	9	Machines therefor, e.g. electron gun assembling devices	CPCONLY	H01J2209/185		210
H01J2209/236	8	Manufacture of magnetic deflecting devices	CPCONLY	H01J2209/236		7
H01J2209/2363	9	Coils	CPCONLY	H01J2209/2363		28
H01J2209/2366	10	Machines therefor, e.g. winding, forming, welding, or the like	CPCONLY	H01J2209/2366		234
H01J2209/26	8	Sealing parts of the vessel to provide a vacuum enclosure	CPCONLY	H01J2209/26		37
H01J2209/261	9	Apparatus used for sealing vessels, e.g. furnaces, machines or the like	CPCONLY	H01J2209/261		152
H01J2209/262	10	means for applying sealing materials, e.g. frit paste dispensers	CPCONLY	H01J2209/262		46
H01J2209/264	9	Materials for sealing vessels, e.g. frit glass compounds, resins or structures	CPCONLY	H01J2209/264		129
H01J2209/265	9	Surfaces for sealing vessels	CPCONLY	H01J2209/265		10
H01J2209/267	10	shaped surfaces or flanges	CPCONLY	H01J2209/267		30
H01J2209/268	10	treated surfaces and surface preparations, e.g. to improve adhesion	CPCONLY	H01J2209/268		22
H01J2209/38	8	Control of maintenance of pressure in the vessel	CPCONLY	H01J2209/38		10
H01J2209/383	9	Vacuum pumps	CPCONLY	H01J2209/383		45
H01J2209/385	9	Gettering	CPCONLY	H01J2209/385		178
H01J2209/3855	10	Getter materials	CPCONLY	H01J2209/3855		24
H01J2209/387	9	Gas filling	CPCONLY	H01J2209/387		29
H01J2209/389	9	Degassing	CPCONLY	H01J2209/389		11
H01J2209/3893	10	by a discharge	CPCONLY	H01J2209/3893		15
H01J2209/3896	10	by heating	CPCONLY	H01J2209/3896		47
H01J2209/46	8	Handling of tube components during manufacture	CPCONLY	H01J2209/46		30
H01J2209/463	9	Identifying or selecting component pieces	CPCONLY	H01J2209/463		36
H01J2209/466	10	Marking, e.g. bar-codes	CPCONLY	H01J2209/466		53
H01J2211/00	7	Plasma display panels with alternate current induction of the discharge, e.g. AC-PDPs	CPCONLY	H01J2211/00		4
H01J2211/10	8	AC-PDPs with at least one main electrode being out of contact with the plasma	CPCONLY	H01J2211/10		20
H01J2211/12	9	with main electrodes provided on both sides of the discharge space	CPCONLY	H01J2211/12		19
H01J2211/14	9	with main electrodes provided only on one side of the discharge space	CPCONLY	H01J2211/14		1
H01J2211/16	9	with main electrodes provided inside or on the side face of the spacers	CPCONLY	H01J2211/16		
H01J2211/18	9	containing a plurality of independent closed structures for containing the gas, e.g. plasma tube array [PTA] display panels	CPCONLY	H01J2211/18		2
H01J2211/20	8	Constructional details	CPCONLY	H01J2211/20		1
H01J2211/22	9	Electrodes	CPCONLY	H01J2211/22		29
H01J2211/225	10	Material of electrodes	CPCONLY	H01J2211/225		423
H01J2211/24	10	Sustain electrodes or scan electrodes	CPCONLY	H01J2211/24		36
H01J2211/245	11	Shape, e.g. cross section or pattern	CPCONLY	H01J2211/245		1315
H01J2211/26	10	Address electrodes	CPCONLY	H01J2211/26		23
H01J2211/265	11	Shape, e.g. cross section or pattern	CPCONLY	H01J2211/265		355
H01J2211/28	10	Auxiliary electrodes, e.g. priming electrodes or trigger electrodes	CPCONLY	H01J2211/28		23
H01J2211/30	10	Floating electrodes	CPCONLY	H01J2211/30		6
H01J2211/32	10	Disposition of the electrodes	CPCONLY	H01J2211/32		20
H01J2211/323	11	Mutual disposition of electrodes	CPCONLY	H01J2211/323		786
H01J2211/326	11	Disposition of electrodes with respect to cell parameters (H01J2211/323 takes precedence), e.g. electrodes within the ribs	CPCONLY	H01J2211/326		398
H01J2211/34	9	Vessels, containers or parts thereof, e.g. substrates	CPCONLY	H01J2211/34		38
H01J2211/36	10	Spacers, barriers, ribs, partitions or the like	CPCONLY	H01J2211/36		194
H01J2211/361	11	characterized by the shape	CPCONLY	H01J2211/361		356
H01J2211/363	12	Cross section of the spacers	CPCONLY	H01J2211/363		486
H01J2211/365	12	Pattern of the spacers	CPCONLY	H01J2211/365		474
H01J2211/366	11	characterized by the material	CPCONLY	H01J2211/366		416
H01J2211/368	11	Dummy spacers, e.g. in a non display region	CPCONLY	H01J2211/368		203
H01J2211/38	10	Dielectric or insulating layers	CPCONLY	H01J2211/38		191
H01J2211/40	10	Layers for protecting or enhancing the electron emission, e.g. MgO layers	CPCONLY	H01J2211/40		68
H01J2211/42	10	Fluorescent layers	CPCONLY	H01J2211/42		302
H01J2211/44	10	Optical arrangements or shielding arrangements, e.g. filters or lenses	CPCONLY	H01J2211/44		93
H01J2211/442	11	Light reflecting means; Anti-reflection means	CPCONLY	H01J2211/442		523
H01J2211/444	11	Means for improving contrast or colour purity, e.g. black matrix or light shielding means	CPCONLY	H01J2211/444		1030
H01J2211/446	11	Electromagnetic shielding means; Antistatic means	CPCONLY	H01J2211/446		783
H01J2211/448	11	Near infrared shielding means	CPCONLY	H01J2211/448		222
H01J2211/46	9	Connecting or feeding means, e.g. leading-in conductors	CPCONLY	H01J2211/46		76
H01J2211/48	9	Sealing, e.g. seals specially adapted for leading-in conductors	CPCONLY	H01J2211/48		31
H01J2211/50	9	Filling, e.g. selection of gas mixture	CPCONLY	H01J2211/50		16
H01J2211/52	9	Means for absorbing or adsorbing the gas mixture, e.g. by gettering	CPCONLY	H01J2211/52		7
H01J2211/54	9	Means for exhausting the gas	CPCONLY	H01J2211/54		26
H01J2211/62	9	Circuit arrangements	CPCONLY	H01J2211/62		445
H01J2211/66	9	Cooling arrangements	CPCONLY	H01J2211/66		526
H01J2217/00	7	Gas-filled discharge tubes	CPCONLY	H01J2217/00		4
H01J2217/04	8	Electrodes	CPCONLY	H01J2217/04		6
H01J2217/06	9	Cathodes	CPCONLY	H01J2217/06		3
H01J2217/062	10	thermionic	CPCONLY	H01J2217/062		1
H01J2217/065	10	heated by the discharge	CPCONLY	H01J2217/065		
H01J2217/067	10	Cold cathodes	CPCONLY	H01J2217/067		1
H01J2217/10	9	Anodes	CPCONLY	H01J2217/10		2
H01J2217/12	9	Control electrodes	CPCONLY	H01J2217/12		
H01J2217/38	8	Cold-cathode tubes	CPCONLY	H01J2217/38		2
H01J2217/40	9	Gas discharge switches	CPCONLY	H01J2217/40		2
H01J2217/402	10	Multiple switches	CPCONLY	H01J2217/402		
H01J2217/4025	11	for addressing electro-optical devices, i.e. LCD&apos;s	CPCONLY	H01J2217/4025		40
H01J2217/49	9	Display panels, e.g. not making use of alternating current (H01J2211/10 takes precedence)	CPCONLY	H01J2217/49		96
H01J2217/491	10	characterised by problems peculiar to plasma displays	CPCONLY	H01J2217/491		3
H01J2217/4915	11	Luminosity	CPCONLY	H01J2217/4915		
H01J2217/492	10	Details	CPCONLY	H01J2217/492		180
H01J2217/49207	11	Electrodes	CPCONLY	H01J2217/49207		83
H01J2217/49214	12	Shape	CPCONLY	H01J2217/49214		11
H01J2217/49221	12	Mutual disposition	CPCONLY	H01J2217/49221		4
H01J2217/49228	13	Crossed electrodes	CPCONLY	H01J2217/49228		13
H01J2217/49235	13	Side-by-side electrodes	CPCONLY	H01J2217/49235		4
H01J2217/49242	13	Auxiliary electrodes	CPCONLY	H01J2217/49242		11
H01J2217/4925	12	Mounting, supporting, spacing	CPCONLY	H01J2217/4925		25
H01J2217/49257	12	Means for isolating electrodes from the discharge, e.g. dielectric layers	CPCONLY	H01J2217/49257		10
H01J2217/49264	11	Vessels	CPCONLY	H01J2217/49264		96
H01J2217/49271	12	Spacers between front and back panels	CPCONLY	H01J2217/49271		29
H01J2217/49278	12	Coatings (H01J2217/49292 takes precedence)	CPCONLY	H01J2217/49278		12
H01J2217/49285	11	Associated optical means	CPCONLY	H01J2217/49285		9
H01J2217/49292	12	Filters	CPCONLY	H01J2217/49292		65
H01J2217/494	10	A.C. panels	CPCONLY	H01J2217/494		
H01J2217/498	10	Hybrid panels (AC and DC)	CPCONLY	H01J2217/498		9
H01J2223/00	7	Details of transit-time tubes of the types covered by group H01J2225/00	CPCONLY	H01J2223/00		3
H01J2223/005	8	Cooling methods or arrangements	CPCONLY	H01J2223/005		6
H01J2223/02	8	Electrodes; Magnetic control means; Screens	CPCONLY	H01J2223/02		4
H01J2223/027	9	Collectors	CPCONLY	H01J2223/027		5
H01J2223/0275	10	Multistage collectors	CPCONLY	H01J2223/0275		15
H01J2223/033	10	Collector cooling devices	CPCONLY	H01J2223/033		4
H01J2223/04	9	Cathodes	CPCONLY	H01J2223/04		25
H01J2223/05	10	having a cylindrical emissive surface, e.g. cathodes for magnetrons	CPCONLY	H01J2223/05		8
H01J2223/06	9	Electron or ion guns	CPCONLY	H01J2223/06		15
H01J2223/065	10	producing a solid cylindrical beam	CPCONLY	H01J2223/065		3
H01J2223/07	10	producing a hollow cylindrical beam	CPCONLY	H01J2223/07		
H01J2223/075	10	Magnetron injection guns	CPCONLY	H01J2223/075		
H01J2223/08	9	Focusing arrangements, e.g. for concentrating stream of electrons, for preventing spreading of stream	CPCONLY	H01J2223/08		
H01J2223/083	10	Electrostatic focusing arrangements	CPCONLY	H01J2223/083		1
H01J2223/087	10	Magnetic focusing arrangements	CPCONLY	H01J2223/087		8
H01J2223/0873	11	with at least one axial- field reversal along the interaction space, e.g. P.P.M. focusing	CPCONLY	H01J2223/0873		2
H01J2223/0876	11	with arrangements improving the linearity and homogeniety of the axial field, e.g. field straightener	CPCONLY	H01J2223/0876		
H01J2223/09	9	Electric system for directing or deflecting the discharge along a desired path, e.g. E-type	CPCONLY	H01J2223/09		2
H01J2223/10	9	Magnet systems for directing or deflecting the discharge along a desired path, e.g. a spiral path	CPCONLY	H01J2223/10		3
H01J2223/11	9	Means for reducing noise	CPCONLY	H01J2223/11		3
H01J2223/12	8	Vessels; Containers	CPCONLY	H01J2223/12		10
H01J2223/14	8	Leading-in arrangements; Seals therefor	CPCONLY	H01J2223/14		6
H01J2223/15	9	Means for preventing wave energy leakage structurally associated with tube leading-in arrangements, e.g. filters, chokes, attenuating devices	CPCONLY	H01J2223/15		9
H01J2223/16	8	Circuit elements, having distributed capacitance and inductance, structurally associated with the tube and interacting with the discharge	CPCONLY	H01J2223/16		2
H01J2223/165	9	Manufacturing processes or apparatus therefore	CPCONLY	H01J2223/165		4
H01J2223/18	9	Resonators	CPCONLY	H01J2223/18		7
H01J2223/20	10	Cavity resonators; Adjustment or tuning thereof	CPCONLY	H01J2223/20		12
H01J2223/207	11	Tuning of single resonator	CPCONLY	H01J2223/207		1
H01J2223/213	11	Simultaneous tuning of more than one resonator, e.g. resonant cavities of a magnetron	CPCONLY	H01J2223/213		4
H01J2223/22	10	Connections between resonators, e.g. strapping for connecting resonators of a magnetron	CPCONLY	H01J2223/22		
H01J2223/24	9	Slow-wave structures, e.g. delay systems	CPCONLY	H01J2223/24		29
H01J2223/26	10	Helical slow-wave structures; Adjustment therefor	CPCONLY	H01J2223/26		6
H01J2223/27	11	Helix-derived slow-wave structures	CPCONLY	H01J2223/27		6
H01J2223/28	10	Interdigital slow-wave structures; Adjustment therefor	CPCONLY	H01J2223/28		1
H01J2223/30	10	Damping arrangements associated with slow-wave structures, e.g. for suppression of unwanted oscillations	CPCONLY	H01J2223/30		1
H01J2223/34	8	Circuit arrangements not adapted to a particular application of the tube and not otherwise provided for	CPCONLY	H01J2223/34		9
H01J2223/36	8	Coupling devices having distributed capacitance and inductance, structurally associated with the tube, for introducing or removing wave energy	CPCONLY	H01J2223/36		12
H01J2223/38	9	to or from the discharge	CPCONLY	H01J2223/38		1
H01J2223/40	9	to or from the interaction circuit	CPCONLY	H01J2223/40		4
H01J2223/42	10	the interaction circuit being a helix or a helix-derived slow- wave structure	CPCONLY	H01J2223/42		1
H01J2223/44	10	Rod-type coupling devices	CPCONLY	H01J2223/44		1
H01J2223/46	10	Loop coupling devices	CPCONLY	H01J2223/46		2
H01J2223/48	10	for linking interaction circuit with coaxial lines; Devices of the coupled helices type	CPCONLY	H01J2223/48		2
H01J2223/50	11	the interaction circuit being a helix or derived from a helix	CPCONLY	H01J2223/50		1
H01J2223/52	11	the coupled helices being disposed coaxially around one another	CPCONLY	H01J2223/52		
H01J2223/54	9	Filtering devices preventing unwanted frequencies or modes to be coupled to, or out of, the interaction circuit; Prevention of high frequency leakage in the environment	CPCONLY	H01J2223/54		4
H01J2225/00	7	Transit-time tubes, e.g. Klystrons, travelling-wave tubes, magnetrons	CPCONLY	H01J2225/00		3
H01J2225/005	8	Gas-filled transit-time tubes	CPCONLY	H01J2225/005		
H01J2225/02	8	Tubes with electron stream modulated in velocity or density in a modulator zone and thereafter giving up energy in an inducing zone, the zones being associated with one or more resonators	CPCONLY	H01J2225/02		6
H01J2225/025	9	with an electron stream following a helical path	CPCONLY	H01J2225/025		8
H01J2225/04	9	Tubes having one or more resonators, without reflection of the electron stream, and in which the modulation produced in the modulator zone is mainly density modulation, e.g. Heaff tube	CPCONLY	H01J2225/04		21
H01J2225/06	9	Tubes having only one resonator, without reflection of the electron stream, and in which the modulation produced in the modulator zone is mainly velocity modulation, e.g. L&#252;di-Klystron	CPCONLY	H01J2225/06		1
H01J2225/08	10	with electron stream perpendicular to the axis of the resonator	CPCONLY	H01J2225/08		
H01J2225/10	9	Klystrons, i.e. tubes having two or more resonators, without reflection of the electron stream, and in which the stream is modulated mainly by velocity in the zone of the input resonator	CPCONLY	H01J2225/10		27
H01J2225/11	10	Extended interaction Klystrons	CPCONLY	H01J2225/11		2
H01J2225/12	10	with pencil-like electron stream in the axis of the resonators	CPCONLY	H01J2225/12		2
H01J2225/14	10	with tube-like electron stream coaxial with the axis of the resonators	CPCONLY	H01J2225/14		1
H01J2225/16	10	with pencil-like electron stream perpendicular to the axis of the resonators	CPCONLY	H01J2225/16		
H01J2225/18	10	with radial or disc-like electron stream perpendicular to the axis of the resonators	CPCONLY	H01J2225/18		1
H01J2225/20	10	having special arrangements in the space between resonators, e.g. resistive-wall amplifier tube, space-charge amplifier tube, velocity- jump tube	CPCONLY	H01J2225/20		
H01J2225/22	9	Reflex Klystrons, i.e. tubes having one or more resonators, with a single reflection of the electron stream, and in which the stream is modulated mainly by velocity in the modulator zone	CPCONLY	H01J2225/22		1
H01J2225/24	10	in which the electron stream is in the axis of the resonator or resonators and is pencil-like before reflection	CPCONLY	H01J2225/24		
H01J2225/26	10	in which the electron stream is coaxial with the axis of the resonator or resonators and is tube-like before reflection	CPCONLY	H01J2225/26		
H01J2225/28	10	in which the electron stream is perpendicular to the axis of the resonator or resonators and is pencil-like before reflection	CPCONLY	H01J2225/28		
H01J2225/30	10	in which the electron stream is perpendicular to the axis of the resonator or resonators and is radial or disc-like before reflection	CPCONLY	H01J2225/30		
H01J2225/32	9	Tubes with plural reflection, e.g. Coeterier tube	CPCONLY	H01J2225/32		
H01J2225/34	8	Travelling-wave tubes; Tubes in which a travelling wave is simulated at spaced gaps	CPCONLY	H01J2225/34		42
H01J2225/36	9	Tubes in which an electron stream interacts with a wave travelling along a delay line or equivalent sequence of impedance elements, and without magnet system producing an H-field crossing the E-field	CPCONLY	H01J2225/36		2
H01J2225/38	10	the forward travelling wave being utilised	CPCONLY	H01J2225/38		11
H01J2225/40	10	the backward travelling wave being utilised	CPCONLY	H01J2225/40		
H01J2225/42	9	Tubes in which an electron stream interacts with a wave travelling along a delay line or equivalent sequence of impedance elements, and with a magnet system producing an H-field crossing the E-field	CPCONLY	H01J2225/42		2
H01J2225/44	10	the forward travelling wave being utilised	CPCONLY	H01J2225/44		
H01J2225/46	10	the backward travelling wave being utilised	CPCONLY	H01J2225/46		9
H01J2225/48	9	Tubes in which two electron streams of different velocities interact with one another, e.g. electron-wave tube	CPCONLY	H01J2225/48		
H01J2225/49	9	Tubes using the parametric principle, e.g. for parametric amplification	CPCONLY	H01J2225/49		
H01J2225/50	8	Magnetrons, i.e. tubes with a magnet system producing an H-field crossing the E-field	CPCONLY	H01J2225/50		266
H01J2225/52	9	with an electron space having a shape that does not prevent any electron from moving completely around the cathode or guide electrode	CPCONLY	H01J2225/52		4
H01J2225/54	10	having only one cavity or other resonator, e.g. neutrode tube	CPCONLY	H01J2225/54		
H01J2225/55	11	Coaxial cavity magnetrons	CPCONLY	H01J2225/55		2
H01J2225/56	11	with interdigital arrangements of anodes, e.g. turbator tube	CPCONLY	H01J2225/56		2
H01J2225/58	10	having a number of resonators; having a composite resonator, e.g. a helix	CPCONLY	H01J2225/58		1
H01J2225/587	11	Multi-cavity magnetrons	CPCONLY	H01J2225/587		15
H01J2225/593	12	Rising-sun magnetrons	CPCONLY	H01J2225/593		
H01J2225/60	9	with an electron space having a shape that prevents any electron from moving completely around the cathode or guide electrode; Linear magnetrons	CPCONLY	H01J2225/60		
H01J2225/61	8	Hybrid tubes, i.e. tubes comprising a klystron section and a travelling-wave section	CPCONLY	H01J2225/61		
H01J2225/62	8	Strophotrons, i.e. tubes with H-field crossing the E-field and functioning with plural reflection	CPCONLY	H01J2225/62		
H01J2225/64	8	Turbine tubes, i.e. tubes with H-field crossing the E-field and functioning with reversed cyclotron action	CPCONLY	H01J2225/64		
H01J2225/66	8	Tubes with electron stream crossing itself and thereby interacting or interfering with itself	CPCONLY	H01J2225/66		
H01J2225/68	8	Tubes specially designed to act as oscillator with positive grid and retarding field, e.g. for Barkhausen-Kurz oscillators	CPCONLY	H01J2225/68		
H01J2225/70	9	with resonator having distributed inductance with capacitance, e.g. Pintsch tube	CPCONLY	H01J2225/70		
H01J2225/72	9	in which a standing wave or a considerable part thereof is produced along an electrode, e.g. Clavier tube	CPCONLY	H01J2225/72		
H01J2225/74	8	Tubes specially designed to act as transit-time diode oscillators, e.g. monotron	CPCONLY	H01J2225/74		
H01J2225/76	8	Dynamic electron-multiplier tubes, e.g. Farnsworth multiplier tube, multipactor	CPCONLY	H01J2225/76		3
H01J2225/78	8	Tubes with electron stream modulated by deflection in a resonator	CPCONLY	H01J2225/78		
H01J2229/00	7	Details of cathode ray tubes or electron beam tubes (H01J2329/00 takes precedence)	CPCONLY	H01J2229/00		33
H01J2229/0007	8	Elimination of unwanted or stray electromagnetic effects	CPCONLY	H01J2229/0007		14
H01J2229/0015	9	Preventing or cancelling fields leaving the enclosure	CPCONLY	H01J2229/0015		167
H01J2229/0023	10	Passive means	CPCONLY	H01J2229/0023		75
H01J2229/003	9	Preventing or cancelling fields entering the enclosure	CPCONLY	H01J2229/003		237
H01J2229/0038	10	Active means	CPCONLY	H01J2229/0038		27
H01J2229/0046	9	Preventing or cancelling fields within the enclosure	CPCONLY	H01J2229/0046		24
H01J2229/0053	10	Demagnetisation	CPCONLY	H01J2229/0053		254
H01J2229/0061	8	Cooling arrangements	CPCONLY	H01J2229/0061		18
H01J2229/0069	9	Active means, e.g. fluid flow	CPCONLY	H01J2229/0069		10
H01J2229/0076	10	applied to the faceplate	CPCONLY	H01J2229/0076		4
H01J2229/0084	11	Translucent coolant, e.g. flowing across faceplate	CPCONLY	H01J2229/0084		27
H01J2229/0092	9	Passive means, e.g. fins, heat conductors	CPCONLY	H01J2229/0092		10
H01J2229/07	8	Shadow masks	CPCONLY	H01J2229/07		30
H01J2229/0705	9	Mounting arrangement of assembly to vessel	CPCONLY	H01J2229/0705		150
H01J2229/0711	10	Spring and plate (clip) type	CPCONLY	H01J2229/0711		351
H01J2229/0716	9	Mounting arrangements of aperture plate to frame or vessel	CPCONLY	H01J2229/0716		467
H01J2229/0722	9	Frame	CPCONLY	H01J2229/0722		643
H01J2229/0727	9	Aperture plate	CPCONLY	H01J2229/0727		66
H01J2229/0733	10	characterised by the material	CPCONLY	H01J2229/0733		229
H01J2229/0738	10	Mitigating undesirable mechanical effects	CPCONLY	H01J2229/0738		76
H01J2229/0744	11	Vibrations	CPCONLY	H01J2229/0744		321
H01J2229/075	10	Beam passing apertures, e.g. geometrical arrangements	CPCONLY	H01J2229/075		120
H01J2229/0755	11	characterised by aperture shape	CPCONLY	H01J2229/0755		129
H01J2229/0761	12	Uniaxial masks having parallel slit apertures, i.e. Trinitron type	CPCONLY	H01J2229/0761		89
H01J2229/0766	10	Details of skirt or border	CPCONLY	H01J2229/0766		206
H01J2229/0772	11	Apertures, cut-outs, depressions, or the like	CPCONLY	H01J2229/0772		200
H01J2229/0777	10	Coatings	CPCONLY	H01J2229/0777		124
H01J2229/0783	11	improving thermal radiation properties	CPCONLY	H01J2229/0783		87
H01J2229/0788	10	Parameterised dimensions of aperture plate, e.g. relationships, polynomial expressions	CPCONLY	H01J2229/0788		175
H01J2229/0794	9	Geometrical arrangements, e.g. curvature	CPCONLY	H01J2229/0794		115
H01J2229/18	8	Phosphor screens	CPCONLY	H01J2229/18		6
H01J2229/183	9	multi-layer	CPCONLY	H01J2229/183		2
H01J2229/186	9	Geometrical arrangement of phosphors	CPCONLY	H01J2229/186		18
H01J2229/48	8	Electron guns	CPCONLY	H01J2229/48		13
H01J2229/4803	9	Electrodes	CPCONLY	H01J2229/4803		89
H01J2229/4806	10	Shield centering cups	CPCONLY	H01J2229/4806		63
H01J2229/481	10	Focusing electrodes	CPCONLY	H01J2229/481		167
H01J2229/4813	11	Pre-focusing	CPCONLY	H01J2229/4813		16
H01J2229/4817	10	Accelerating electrodes	CPCONLY	H01J2229/4817		100
H01J2229/482	10	Extraction grids	CPCONLY	H01J2229/482		6
H01J2229/4824	9	Constructional arrangements of electrodes	CPCONLY	H01J2229/4824		59
H01J2229/4827	10	Electrodes formed on surface of common cylindrical support	CPCONLY	H01J2229/4827		69
H01J2229/4831	10	Electrode supports	CPCONLY	H01J2229/4831		278
H01J2229/4834	9	Electrical arrangements coupled to electrodes, e.g. potentials	CPCONLY	H01J2229/4834		23
H01J2229/4837	10	characterised by the potentials applied	CPCONLY	H01J2229/4837		9
H01J2229/4841	11	Dynamic potentials	CPCONLY	H01J2229/4841		162
H01J2229/4844	9	characterised by beam passing apertures or combinations	CPCONLY	H01J2229/4844		64
H01J2229/4848	10	Aperture shape as viewed along beam axis	CPCONLY	H01J2229/4848		119
H01J2229/4851	11	trapezoidal	CPCONLY	H01J2229/4851		
H01J2229/4855	12	with rounded end or ends	CPCONLY	H01J2229/4855		
H01J2229/4858	11	parallelogram	CPCONLY	H01J2229/4858		8
H01J2229/4862	12	square	CPCONLY	H01J2229/4862		8
H01J2229/4865	12	rectangle	CPCONLY	H01J2229/4865		72
H01J2229/4868	13	with rounded end or ends	CPCONLY	H01J2229/4868		33
H01J2229/4872	11	circular	CPCONLY	H01J2229/4872		112
H01J2229/4875	11	oval	CPCONLY	H01J2229/4875		53
H01J2229/4879	11	non-symmetric about field scanning axis	CPCONLY	H01J2229/4879		28
H01J2229/4882	11	non-symmetric about line scanning axis	CPCONLY	H01J2229/4882		1
H01J2229/4886	11	polygonal	CPCONLY	H01J2229/4886		15
H01J2229/4889	12	cross shaped	CPCONLY	H01J2229/4889		11
H01J2229/4893	11	Interconnected apertures	CPCONLY	H01J2229/4893		5
H01J2229/4896	11	complex and not provided for	CPCONLY	H01J2229/4896		53
H01J2229/50	9	Plurality of guns or beams	CPCONLY	H01J2229/50		2
H01J2229/502	10	Three beam guns, e.g. for colour CRTs	CPCONLY	H01J2229/502		195
H01J2229/505	10	Arrays	CPCONLY	H01J2229/505		13
H01J2229/507	10	Multi-beam groups, e.g. number of beams greater than number of cathodes	CPCONLY	H01J2229/507		59
H01J2229/56	8	Correction of beam optics	CPCONLY	H01J2229/56		6
H01J2229/563	9	Aberrations by type	CPCONLY	H01J2229/563		4
H01J2229/5632	10	Spherical	CPCONLY	H01J2229/5632		13
H01J2229/5635	10	Astigmatism	CPCONLY	H01J2229/5635		15
H01J2229/5637	10	Colour purity	CPCONLY	H01J2229/5637		66
H01J2229/568	9	using supplementary correction devices	CPCONLY	H01J2229/568		65
H01J2229/5681	10	magnetic	CPCONLY	H01J2229/5681		134
H01J2229/5682	11	Permanently magnetised materials, e.g. permanent magnets	CPCONLY	H01J2229/5682		71
H01J2229/5684	11	Magnetic materials, e.g. soft iron	CPCONLY	H01J2229/5684		34
H01J2229/5685	12	Cross-arms field shaper	CPCONLY	H01J2229/5685		16
H01J2229/5687	11	Auxiliary coils	CPCONLY	H01J2229/5687		252
H01J2229/5688	12	Velocity modulation	CPCONLY	H01J2229/5688		49
H01J2229/58	8	Electron beam control inside the vessel	CPCONLY	H01J2229/58		3
H01J2229/581	9	by magnetic means	CPCONLY	H01J2229/581		74
H01J2229/582	9	by electrostatic means	CPCONLY	H01J2229/582		13
H01J2229/583	9	at the source	CPCONLY	H01J2229/583		
H01J2229/5835	10	cooperating with the electron gun	CPCONLY	H01J2229/5835		32
H01J2229/585	9	at the screen	CPCONLY	H01J2229/585		3
H01J2229/587	9	between the source and the screen	CPCONLY	H01J2229/587		12
H01J2229/70	8	Electron beam control outside the vessel	CPCONLY	H01J2229/70		3
H01J2229/703	9	by magnetic fields	CPCONLY	H01J2229/703		201
H01J2229/7031	10	Cores for field producing elements, e.g. ferrite	CPCONLY	H01J2229/7031		474
H01J2229/7032	10	Conductor design and distribution	CPCONLY	H01J2229/7032		91
H01J2229/7033	11	Winding	CPCONLY	H01J2229/7033		421
H01J2229/7035	11	Wires and conductors	CPCONLY	H01J2229/7035		11
H01J2229/7036	12	Form of conductor	CPCONLY	H01J2229/7036		12
H01J2229/7037	13	flat, e.g. foil, or ribbon type	CPCONLY	H01J2229/7037		109
H01J2229/7038	10	Coil separators and formers	CPCONLY	H01J2229/7038		1017
H01J2229/86	8	Vessels and containers	CPCONLY	H01J2229/86		9
H01J2229/8603	9	Neck or cone portions of the CRT vessel	CPCONLY	H01J2229/8603		100
H01J2229/8606	10	characterised by the shape	CPCONLY	H01J2229/8606		49
H01J2229/8609	11	Non circular cross-sections	CPCONLY	H01J2229/8609		55
H01J2229/8613	9	Faceplates	CPCONLY	H01J2229/8613		130
H01J2229/8616	10	characterised by shape	CPCONLY	H01J2229/8616		70
H01J2229/862	11	Parameterised shape, e.g. expression, relationship or equation	CPCONLY	H01J2229/862		200
H01J2229/8623	9	Substrates	CPCONLY	H01J2229/8623		35
H01J2229/8626	9	Frames	CPCONLY	H01J2229/8626		60
H01J2229/863	8	Passive shielding means associated with the vessel	CPCONLY	H01J2229/863		12
H01J2229/8631	9	Coatings	CPCONLY	H01J2229/8631		51
H01J2229/8632	10	characterised by the material	CPCONLY	H01J2229/8632		73
H01J2229/8633	9	Meshes and patterns	CPCONLY	H01J2229/8633		45
H01J2229/8634	9	Magnetic shielding	CPCONLY	H01J2229/8634		118
H01J2229/8635	9	Antistatic shielding	CPCONLY	H01J2229/8635		89
H01J2229/8636	9	Electromagnetic shielding	CPCONLY	H01J2229/8636		73
H01J2229/8637	9	Mechanical shielding, e.g. against water or abrasion	CPCONLY	H01J2229/8637		11
H01J2229/8638	9	Ionising radiation shielding, e.g. X-rays	CPCONLY	H01J2229/8638		9
H01J2229/87	8	Means for avoiding vessel implosion	CPCONLY	H01J2229/87		126
H01J2229/875	9	Means substantially covering the output face, e.g. resin layers, protective panels	CPCONLY	H01J2229/875		170
H01J2229/88	8	Coatings	CPCONLY	H01J2229/88		31
H01J2229/882	9	having particular electrical resistive or conductive properties	CPCONLY	H01J2229/882		268
H01J2229/885	9	having particular electrical insulation properties	CPCONLY	H01J2229/885		20
H01J2229/887	9	having particular X-ray shielding properties	CPCONLY	H01J2229/887		2
H01J2229/89	8	Optical components associated with the vessel	CPCONLY	H01J2229/89		13
H01J2229/8901	9	Fixing of optical components to the vessel	CPCONLY	H01J2229/8901		77
H01J2229/8903	9	Fibre optic components	CPCONLY	H01J2229/8903		26
H01J2229/8905	9	Direction sensitive devices for controlled viewing angle	CPCONLY	H01J2229/8905		18
H01J2229/8907	9	Image projection devices	CPCONLY	H01J2229/8907		31
H01J2229/8909	9	Baffles, shutters, apertures or the like against external light	CPCONLY	H01J2229/8909		14
H01J2229/8911	10	Large-scale devices, e.g. foldable screens	CPCONLY	H01J2229/8911		17
H01J2229/8913	9	Anti-reflection, anti-glare, viewing angle and contrast improving treatments or devices	CPCONLY	H01J2229/8913		122
H01J2229/8915	10	Surface treatment of vessel or device, e.g. controlled surface roughness	CPCONLY	H01J2229/8915		47
H01J2229/8916	10	inside the vessel	CPCONLY	H01J2229/8916		60
H01J2229/8918	10	by using interference effects	CPCONLY	H01J2229/8918		50
H01J2229/892	10	Effect varying over surface	CPCONLY	H01J2229/892		3
H01J2229/8922	10	Apparatus attached to vessel and not integral therewith	CPCONLY	H01J2229/8922		74
H01J2229/8924	9	having particular properties for protecting the vessel, e.g. against abrasion, water or shock	CPCONLY	H01J2229/8924		24
H01J2229/8926	9	Active components, e.g. LCD&apos;s, indicators, illuminators and moving devices	CPCONLY	H01J2229/8926		90
H01J2229/8928	9	Laser CRTs	CPCONLY	H01J2229/8928		29
H01J2229/893	9	using lenses	CPCONLY	H01J2229/893		93
H01J2229/899	9	Photographic devices (permanent recording of images)	CPCONLY	H01J2229/899		
H01J2229/92	8	Means providing or assisting electrical connection with or within the tube	CPCONLY	H01J2229/92		31
H01J2229/922	9	within the tube	CPCONLY	H01J2229/922		31
H01J2229/925	9	associated with the high tension [HT], e.g. anode potentials	CPCONLY	H01J2229/925		71
H01J2229/927	9	associated with digital scanning	CPCONLY	H01J2229/927		7
H01J2229/94	8	Means for obtaining or maintaining the desired pressure within the tube	CPCONLY	H01J2229/94		25
H01J2229/96	8	Circuit elements other than coils, reactors or the like, associated with the tube	CPCONLY	H01J2229/96		7
H01J2229/962	9	associated with the HT	CPCONLY	H01J2229/962		10
H01J2229/964	9	associated with the deflection system	CPCONLY	H01J2229/964		192
H01J2229/966	9	associated with the gun structure	CPCONLY	H01J2229/966		27
H01J2229/968	10	Resistors	CPCONLY	H01J2229/968		6
H01J2231/00	7	Cathode ray tubes or electron beam tubes (H01J2329/00 takes precedence)	CPCONLY	H01J2231/00		1
H01J2231/12	8	CRTs having luminescent screens	CPCONLY	H01J2231/12		15
H01J2231/121	9	Means for indicating the position of the beam, e.g. beam indexing	CPCONLY	H01J2231/121		140
H01J2231/123	10	by direct current detection, e.g. collecting electrodes	CPCONLY	H01J2231/123		
H01J2231/125	9	with a plurality of electron guns within the tube envelope	CPCONLY	H01J2231/125		5
H01J2231/1255	10	two or more neck portions containing one or more guns	CPCONLY	H01J2231/1255		82
H01J2231/50	8	Imaging and conversion tubes	CPCONLY	H01J2231/50		16
H01J2231/50005	9	characterised by form of illumination	CPCONLY	H01J2231/50005		1
H01J2231/5001	10	Photons	CPCONLY	H01J2231/5001		26
H01J2231/50015	11	Light	CPCONLY	H01J2231/50015		85
H01J2231/50021	12	Ultraviolet	CPCONLY	H01J2231/50021		27
H01J2231/50026	12	Infrared	CPCONLY	H01J2231/50026		57
H01J2231/50031	11	High energy photons	CPCONLY	H01J2231/50031		14
H01J2231/50036	12	X-rays	CPCONLY	H01J2231/50036		150
H01J2231/50042	10	Particles	CPCONLY	H01J2231/50042		8
H01J2231/50047	11	Charged particles	CPCONLY	H01J2231/50047		6
H01J2231/50052	10	Mechanical vibrations, e.g. sound	CPCONLY	H01J2231/50052		9
H01J2231/50057	9	characterised by form of output stage	CPCONLY	H01J2231/50057		1
H01J2231/50063	10	Optical	CPCONLY	H01J2231/50063		133
H01J2231/50068	10	Electrical	CPCONLY	H01J2231/50068		43
H01J2231/50073	11	Charge coupled device [CCD]	CPCONLY	H01J2231/50073		15
H01J2231/50078	11	Resistive anode	CPCONLY	H01J2231/50078		1
H01J2231/50084	11	using light or electron beam scanning	CPCONLY	H01J2231/50084		14
H01J2231/50089	10	Having optical stage before electrical conversion	CPCONLY	H01J2231/50089		9
H01J2231/50094	11	Charge coupled device [CCD]	CPCONLY	H01J2231/50094		11
H01J2231/501	9	including multiplication stage	CPCONLY	H01J2231/501		9
H01J2231/5013	10	with secondary emission electrodes	CPCONLY	H01J2231/5013		11
H01J2231/5016	11	Michrochannel plates [MCP]	CPCONLY	H01J2231/5016		99
H01J2231/503	9	with scanning or gating optics	CPCONLY	H01J2231/503		
H01J2231/5033	10	electrostatic	CPCONLY	H01J2231/5033		3
H01J2231/5036	10	magnetic	CPCONLY	H01J2231/5036		
H01J2231/505	9	with non-scanning optics	CPCONLY	H01J2231/505		
H01J2231/5053	10	electrostatic	CPCONLY	H01J2231/5053		9
H01J2231/5056	10	magnetic	CPCONLY	H01J2231/5056		53
H01J2235/00	7	X-ray tubes	CPCONLY	H01J2235/00		18
H01J2235/02	8	Electrical arrangements	CPCONLY	H01J2235/02		42
H01J2235/023	9	Connecting of signals or tensions to or through the vessel	CPCONLY	H01J2235/023		33
H01J2235/0233	10	High tension	CPCONLY	H01J2235/0233		48
H01J2235/0236	10	Indirect coupling, e.g. capacitive or inductive	CPCONLY	H01J2235/0236		10
H01J2235/06	8	Cathode assembly	CPCONLY	H01J2235/06		120
H01J2235/062	9	Cold cathodes	CPCONLY	H01J2235/062		206
H01J2235/064	9	Movement of cathode	CPCONLY	H01J2235/064		24
H01J2235/066	10	Rotation	CPCONLY	H01J2235/066		23
H01J2235/068	9	Multi-cathode assembly	CPCONLY	H01J2235/068		405
H01J2235/08	8	Targets (anodes) and X-ray converters	CPCONLY	H01J2235/08		63
H01J2235/081	9	Target material	CPCONLY	H01J2235/081		305
H01J2235/082	10	Fluids, e.g. liquids, gases	CPCONLY	H01J2235/082		94
H01J2235/083	9	Bonding or fixing with the support or substrate	CPCONLY	H01J2235/083		93
H01J2235/084	10	Target-substrate interlayers or structures, e.g. to control or prevent diffusion or improve adhesion	CPCONLY	H01J2235/084		173
H01J2235/085	9	Target treatment, e.g. ageing, heating	CPCONLY	H01J2235/085		44
H01J2235/086	9	Target geometry	CPCONLY	H01J2235/086		407
H01J2235/088	9	Laminated targets, e.g. plurality of emitting layers of unique or differing materials	CPCONLY	H01J2235/088		109
H01J2235/10	8	Drive means for anode (target) substrate	CPCONLY	H01J2235/10		43
H01J2235/1006	9	Supports or shafts for target or substrate	CPCONLY	H01J2235/1006		63
H01J2235/1013	10	Fixing to the target or substrate	CPCONLY	H01J2235/1013		81
H01J2235/102	10	Materials for the shaft	CPCONLY	H01J2235/102		22
H01J2235/1026	9	Means (motors) for driving the target (anode)	CPCONLY	H01J2235/1026		93
H01J2235/1033	10	mounted within the vacuum vessel	CPCONLY	H01J2235/1033		16
H01J2235/104	10	characterised by the shape	CPCONLY	H01J2235/104		11
H01J2235/1046	9	Bearings and bearing contact surfaces	CPCONLY	H01J2235/1046		76
H01J2235/1053	10	Retainers or races	CPCONLY	H01J2235/1053		65
H01J2235/106	10	Dynamic pressure bearings, e.g. helical groove type	CPCONLY	H01J2235/106		89
H01J2235/1066	10	Treated contact surfaces, e.g. coatings	CPCONLY	H01J2235/1066		68
H01J2235/1073	10	Magnetic bearings	CPCONLY	H01J2235/1073		16
H01J2235/108	9	Lubricants	CPCONLY	H01J2235/108		16
H01J2235/1086	10	liquid metals	CPCONLY	H01J2235/1086		79
H01J2235/1093	9	Measures for preventing vibration	CPCONLY	H01J2235/1093		57
H01J2235/12	8	Cooling	CPCONLY	H01J2235/12		40
H01J2235/1204	9	of the anode	CPCONLY	H01J2235/1204		299
H01J2235/1208	9	of the bearing assembly	CPCONLY	H01J2235/1208		68
H01J2235/1212	9	of the cathode	CPCONLY	H01J2235/1212		23
H01J2235/1216	9	of the vessel	CPCONLY	H01J2235/1216		88
H01J2235/122	9	of the window	CPCONLY	H01J2235/122		71
H01J2235/1225	9	characterised by method	CPCONLY	H01J2235/1225		22
H01J2235/1229	10	employing layers with high emissivity	CPCONLY	H01J2235/1229		18
H01J2235/1233	11	characterised by the material	CPCONLY	H01J2235/1233		10
H01J2235/1237	12	Oxides	CPCONLY	H01J2235/1237		10
H01J2235/1241	11	Bonding layer to substrate	CPCONLY	H01J2235/1241		6
H01J2235/1245	10	Increasing emissive surface area	CPCONLY	H01J2235/1245		20
H01J2235/125	11	with interdigitated fins or slots	CPCONLY	H01J2235/125		17
H01J2235/1254	11	with microscopic surface features	CPCONLY	H01J2235/1254		2
H01J2235/1258	10	Placing objects in close proximity	CPCONLY	H01J2235/1258		10
H01J2235/1262	10	Circulating fluids	CPCONLY	H01J2235/1262		200
H01J2235/1266	11	flow being via moving conduit or shaft	CPCONLY	H01J2235/1266		73
H01J2235/127	11	Control of flow	CPCONLY	H01J2235/127		21
H01J2235/1275	11	characterised by the fluid	CPCONLY	H01J2235/1275		18
H01J2235/1279	12	Liquid metals	CPCONLY	H01J2235/1279		27
H01J2235/1283	11	in conjunction with extended surfaces (e.g. fins or ridges)	CPCONLY	H01J2235/1283		40
H01J2235/1287	11	Heat pipes	CPCONLY	H01J2235/1287		46
H01J2235/1291	10	Thermal conductivity	CPCONLY	H01J2235/1291		95
H01J2235/1295	11	Contact between conducting bodies	CPCONLY	H01J2235/1295		43
H01J2235/16	8	Vessels	CPCONLY	H01J2235/16		61
H01J2235/161	9	Non-stationary vessels	CPCONLY	H01J2235/161		4
H01J2235/162	10	Rotation	CPCONLY	H01J2235/162		56
H01J2235/163	9	shaped for a particular application	CPCONLY	H01J2235/163		56
H01J2235/164	10	Small cross-section, e.g. for entering in a body cavity	CPCONLY	H01J2235/164		44
H01J2235/165	9	Shielding arrangements	CPCONLY	H01J2235/165		70
H01J2235/166	10	against electromagnetic radiation	CPCONLY	H01J2235/166		100
H01J2235/167	10	against thermal (heat) energy	CPCONLY	H01J2235/167		50
H01J2235/168	10	against charged particles	CPCONLY	H01J2235/168		194
H01J2235/18	8	Windows, e.g. for X-ray transmission	CPCONLY	H01J2235/18		104
H01J2235/183	9	Multi-layer structures	CPCONLY	H01J2235/183		76
H01J2235/20	8	Arrangements for controlling gases within the X-ray tube	CPCONLY	H01J2235/20		45
H01J2235/205	9	Gettering	CPCONLY	H01J2235/205		58
H01J2237/00	7	Discharge tubes exposing object to beam, e.g. for analysis treatment, etching, imaging<br><br><u>NOTE</u><br><br>For features of general interest which may be found in other types of discharge tubes, an indexing code corresponding to general schemes H01J2201/00&#160;-&#160;H01J2203/00 is given, e.g. for cathodes, vessels, cooling means or the like<br>Same rules apply for manufacturing procedures (H01J2209/00), unless really specific to the tube concerned.<br> The codes in this main group are grouped according to the following principle: <br>details common to gas or plasma discharge of the above mentioned tubes: H01J2237/00&#160;-&#160;H01J2237/2487<br>Imaging or analysing: H01J2237/25&#160;-&#160;H01J2237/2857<br> particle beam processing: H01J2237/30&#160;-&#160;H01J2237/31798<br> plasma processing: H01J2237/32&#160;-&#160;H01J2237/339	CPCONLY	H01J2237/00		2
H01J2237/002	8	Cooling arrangements	CPCONLY	H01J2237/002		757
H01J2237/004	8	Charge control of objects or beams	CPCONLY	H01J2237/004		175
H01J2237/0041	9	Neutralising arrangements	CPCONLY	H01J2237/0041		187
H01J2237/0042	10	Deflection of neutralising particles	CPCONLY	H01J2237/0042		20
H01J2237/0044	10	of objects being observed or treated	CPCONLY	H01J2237/0044		179
H01J2237/0045	11	using secondary electrons	CPCONLY	H01J2237/0045		32
H01J2237/0047	11	using electromagnetic radiations, e.g. UV, X-rays, light	CPCONLY	H01J2237/0047		46
H01J2237/0048	9	Charging arrangements	CPCONLY	H01J2237/0048		94
H01J2237/006	8	Details of gas supplies, e.g. in an ion source, to a beam line, to a specimen or to a workpiece, (H01J37/3244 takes precedence; environmental cells for electron microscopes H01J2237/2003; microscopes with environmental specimen chamber H01J2237/2608)	CPCONLY	H01J2237/006		476
H01J2237/02	8	Details	CPCONLY	H01J2237/02		13
H01J2237/0203	9	Protection arrangements	CPCONLY	H01J2237/0203		102
H01J2237/0206	10	Extinguishing, preventing or controlling unwanted discharges	CPCONLY	H01J2237/0206		307
H01J2237/0209	10	Avoiding or diminishing effects of eddy currents	CPCONLY	H01J2237/0209		18
H01J2237/0213	10	Avoiding deleterious effects due to interactions between particles and tube elements	CPCONLY	H01J2237/0213		134
H01J2237/0216	9	Means for avoiding or correcting vibration effects	CPCONLY	H01J2237/0216		173
H01J2237/022	9	Avoiding or removing foreign or contaminating particles, debris or deposits on sample or tube	CPCONLY	H01J2237/022		832
H01J2237/0225	10	Detecting or monitoring foreign particles	CPCONLY	H01J2237/0225		61
H01J2237/024	9	Moving components not otherwise provided for	CPCONLY	H01J2237/024		191
H01J2237/0245	10	Moving whole optical system relatively to object	CPCONLY	H01J2237/0245		55
H01J2237/026	9	Shields	CPCONLY	H01J2237/026		140
H01J2237/0262	10	electrostatic	CPCONLY	H01J2237/0262		53
H01J2237/0264	10	magnetic	CPCONLY	H01J2237/0264		76
H01J2237/0266	10	electromagnetic	CPCONLY	H01J2237/0266		52
H01J2237/0268	10	Liner tubes	CPCONLY	H01J2237/0268		49
H01J2237/028	9	Particle traps	CPCONLY	H01J2237/028		56
H01J2237/03	8	Mounting, supporting, spacing or insulating electrodes	CPCONLY	H01J2237/03		54
H01J2237/032	9	Mounting or supporting	CPCONLY	H01J2237/032		128
H01J2237/036	9	Spacing	CPCONLY	H01J2237/036		32
H01J2237/038	9	Insulating	CPCONLY	H01J2237/038		112
H01J2237/04	8	Means for controlling the discharge	CPCONLY	H01J2237/04		47
H01J2237/041	9	Beam polarising means	CPCONLY	H01J2237/041		6
H01J2237/043	9	Beam blanking	CPCONLY	H01J2237/043		100
H01J2237/0432	10	High speed and short duration	CPCONLY	H01J2237/0432		70
H01J2237/0435	10	Multi-aperture	CPCONLY	H01J2237/0435		242
H01J2237/0437	11	Semiconductor substrate	CPCONLY	H01J2237/0437		115
H01J2237/045	9	Diaphragms	CPCONLY	H01J2237/045		82
H01J2237/0451	10	with fixed aperture	CPCONLY	H01J2237/0451		49
H01J2237/0453	11	multiple apertures	CPCONLY	H01J2237/0453		349
H01J2237/0455	10	with variable aperture	CPCONLY	H01J2237/0455		96
H01J2237/0456	10	Supports	CPCONLY	H01J2237/0456		23
H01J2237/0458	11	movable, i.e. for changing between differently sized apertures	CPCONLY	H01J2237/0458		131
H01J2237/047	9	Changing particle velocity	CPCONLY	H01J2237/047		113
H01J2237/0473	10	accelerating	CPCONLY	H01J2237/0473		143
H01J2237/04732	11	with magnetic means	CPCONLY	H01J2237/04732		6
H01J2237/04735	11	with electrostatic means	CPCONLY	H01J2237/04735		119
H01J2237/04737	12	radio-frequency quadrupole [RFQ]	CPCONLY	H01J2237/04737		17
H01J2237/0475	10	decelerating	CPCONLY	H01J2237/0475		75
H01J2237/04753	11	with magnetic means	CPCONLY	H01J2237/04753		4
H01J2237/04756	11	with electrostatic means	CPCONLY	H01J2237/04756		114
H01J2237/049	9	Focusing means	CPCONLY	H01J2237/049		70
H01J2237/0492	10	Lens systems	CPCONLY	H01J2237/0492		152
H01J2237/04922	11	electromagnetic	CPCONLY	H01J2237/04922		50
H01J2237/04924	11	electrostatic	CPCONLY	H01J2237/04924		98
H01J2237/04926	11	combined	CPCONLY	H01J2237/04926		36
H01J2237/04928	11	Telecentric systems	CPCONLY	H01J2237/04928		18
H01J2237/05	8	Arrangements for energy or mass analysis	CPCONLY	H01J2237/05		75
H01J2237/053	9	electrostatic	CPCONLY	H01J2237/053		78
H01J2237/0535	10	Mirror analyser	CPCONLY	H01J2237/0535		15
H01J2237/055	9	magnetic	CPCONLY	H01J2237/055		83
H01J2237/057	9	Energy or mass filtering	CPCONLY	H01J2237/057		311
H01J2237/06	8	Sources	CPCONLY	H01J2237/06		18
H01J2237/061	9	Construction	CPCONLY	H01J2237/061		297
H01J2237/062	10	Reducing size of gun	CPCONLY	H01J2237/062		25
H01J2237/063	9	Electron sources	CPCONLY	H01J2237/063		103
H01J2237/06308	10	Thermionic sources	CPCONLY	H01J2237/06308		103
H01J2237/06316	11	Schottky emission	CPCONLY	H01J2237/06316		203
H01J2237/06325	10	Cold-cathode sources	CPCONLY	H01J2237/06325		25
H01J2237/06333	11	Photo emission	CPCONLY	H01J2237/06333		125
H01J2237/06341	11	Field emission	CPCONLY	H01J2237/06341		167
H01J2237/0635	12	Multiple source, e.g. comb or array	CPCONLY	H01J2237/0635		88
H01J2237/06358	11	Secondary emission	CPCONLY	H01J2237/06358		11
H01J2237/06366	11	Gas discharge electron sources	CPCONLY	H01J2237/06366		34
H01J2237/06375	10	Arrangement of electrodes	CPCONLY	H01J2237/06375		92
H01J2237/06383	10	Spin polarised electron sources	CPCONLY	H01J2237/06383		25
H01J2237/06391	10	Positron sources	CPCONLY	H01J2237/06391		16
H01J2237/065	9	Source emittance characteristics	CPCONLY	H01J2237/065		78
H01J2237/0653	10	Intensity	CPCONLY	H01J2237/0653		31
H01J2237/0656	10	Density	CPCONLY	H01J2237/0656		28
H01J2237/08	9	Ion sources	CPCONLY	H01J2237/08		274
H01J2237/0802	10	Field ionization sources	CPCONLY	H01J2237/0802		39
H01J2237/0805	11	Liquid metal sources	CPCONLY	H01J2237/0805		63
H01J2237/0807	11	Gas field ion sources [GFIS]	CPCONLY	H01J2237/0807		304
H01J2237/081	10	Sputtering sources	CPCONLY	H01J2237/081		46
H01J2237/0812	10	Ionized cluster beam [ICB] sources	CPCONLY	H01J2237/0812		224
H01J2237/0815	10	Methods of ionisation	CPCONLY	H01J2237/0815		124
H01J2237/0817	11	Microwaves	CPCONLY	H01J2237/0817		81
H01J2237/082	11	Electron beam	CPCONLY	H01J2237/082		173
H01J2237/0822	10	Multiple sources	CPCONLY	H01J2237/0822		44
H01J2237/0825	11	for producing different ions simultaneously	CPCONLY	H01J2237/0825		30
H01J2237/0827	11	for producing different ions sequentially	CPCONLY	H01J2237/0827		54
H01J2237/083	9	Beam forming	CPCONLY	H01J2237/083		156
H01J2237/0835	10	Variable cross-section or shape	CPCONLY	H01J2237/0835		45
H01J2237/10	8	Lenses	CPCONLY	H01J2237/10		52
H01J2237/103	9	characterised by lens type	CPCONLY	H01J2237/103		51
H01J2237/1035	10	Immersion lens	CPCONLY	H01J2237/1035		50
H01J2237/12	9	electrostatic	CPCONLY	H01J2237/12		71
H01J2237/1202	10	Associated circuits	CPCONLY	H01J2237/1202		28
H01J2237/1205	10	Microlenses	CPCONLY	H01J2237/1205		242
H01J2237/1207	10	Einzel lenses	CPCONLY	H01J2237/1207		39
H01J2237/121	10	characterised by shape	CPCONLY	H01J2237/121		54
H01J2237/1215	11	Annular electrodes	CPCONLY	H01J2237/1215		24
H01J2237/14	9	magnetic	CPCONLY	H01J2237/14		74
H01J2237/1405	10	Constructional details	CPCONLY	H01J2237/1405		99
H01J2237/141	11	Coils	CPCONLY	H01J2237/141		72
H01J2237/1415	11	Bores or yokes, i.e. magnetic circuit in general	CPCONLY	H01J2237/1415		65
H01J2237/142	10	with superconducting coils	CPCONLY	H01J2237/142		12
H01J2237/15	8	Means for deflecting or directing discharge	CPCONLY	H01J2237/15		178
H01J2237/1501	9	Beam alignment means or procedures	CPCONLY	H01J2237/1501		259
H01J2237/1502	9	Mechanical adjustments	CPCONLY	H01J2237/1502		53
H01J2237/1503	10	Mechanical scanning	CPCONLY	H01J2237/1503		27
H01J2237/1504	9	Associated circuits	CPCONLY	H01J2237/1504		104
H01J2237/1505	9	Rotating beam around optical axis	CPCONLY	H01J2237/1505		33
H01J2237/1506	9	Tilting or rocking beam around an axis substantially at an angle to optical axis	CPCONLY	H01J2237/1506		54
H01J2237/1507	10	dynamically, e.g. to obtain same impinging angle on whole area	CPCONLY	H01J2237/1507		22
H01J2237/1508	9	Combined electrostatic-electromagnetic means	CPCONLY	H01J2237/1508		62
H01J2237/151	9	Electrostatic means	CPCONLY	H01J2237/151		118
H01J2237/1512	10	Travelling wave deflectors	CPCONLY	H01J2237/1512		2
H01J2237/1514	10	Prisms	CPCONLY	H01J2237/1514		60
H01J2237/1516	10	Multipoles	CPCONLY	H01J2237/1516		96
H01J2237/1518	10	for X-Y scanning	CPCONLY	H01J2237/1518		22
H01J2237/152	9	Magnetic means	CPCONLY	H01J2237/152		128
H01J2237/1523	10	Prisms	CPCONLY	H01J2237/1523		21
H01J2237/1526	10	For X-Y scanning	CPCONLY	H01J2237/1526		37
H01J2237/153	8	Correcting image defects, e.g. stigmators	CPCONLY	H01J2237/153		123
H01J2237/1532	9	Astigmatism	CPCONLY	H01J2237/1532		184
H01J2237/1534	9	Aberrations	CPCONLY	H01J2237/1534		387
H01J2237/1536	9	Image distortions due to scanning	CPCONLY	H01J2237/1536		101
H01J2237/1538	9	Space charge (Boersch) effect compensation	CPCONLY	H01J2237/1538		27
H01J2237/16	8	Vessels	CPCONLY	H01J2237/16		77
H01J2237/162	9	Open vessel, i.e. one end sealed by object or workpiece	CPCONLY	H01J2237/162		46
H01J2237/164	9	Particle-permeable windows	CPCONLY	H01J2237/164		70
H01J2237/166	9	Sealing means	CPCONLY	H01J2237/166		114
H01J2237/18	8	Vacuum control means	CPCONLY	H01J2237/18		83
H01J2237/182	9	Obtaining or maintaining desired pressure	CPCONLY	H01J2237/182		172
H01J2237/1825	10	Evacuating means	CPCONLY	H01J2237/1825		164
H01J2237/184	9	Vacuum locks	CPCONLY	H01J2237/184		124
H01J2237/186	9	Valves	CPCONLY	H01J2237/186		90
H01J2237/188	9	Differential pressure	CPCONLY	H01J2237/188		160
H01J2237/20	8	Positioning, supporting, modifying or maintaining the physical state of objects being observed or treated	CPCONLY	H01J2237/20		175
H01J2237/2001	9	Maintaining constant desired temperature	CPCONLY	H01J2237/2001		873
H01J2237/2002	9	Controlling environment of sample	CPCONLY	H01J2237/2002		169
H01J2237/2003	10	Environmental cells	CPCONLY	H01J2237/2003		186
H01J2237/2004	11	Biological samples	CPCONLY	H01J2237/2004		90
H01J2237/2005	9	Seal mechanisms	CPCONLY	H01J2237/2005		52
H01J2237/2006	10	Vacuum seals	CPCONLY	H01J2237/2006		76
H01J2237/2007	9	Holding mechanisms	CPCONLY	H01J2237/2007		884
H01J2237/2008	9	specially adapted for studying electrical or magnetical properties of objects	CPCONLY	H01J2237/2008		81
H01J2237/201	9	for mounting multiple objects	CPCONLY	H01J2237/201		169
H01J2237/202	9	Movement	CPCONLY	H01J2237/202		365
H01J2237/20207	10	Tilt	CPCONLY	H01J2237/20207		326
H01J2237/20214	10	Rotation	CPCONLY	H01J2237/20214		485
H01J2237/20221	10	Translation	CPCONLY	H01J2237/20221		200
H01J2237/20228	11	Mechanical X-Y scanning	CPCONLY	H01J2237/20228		262
H01J2237/20235	11	Z movement or adjustment	CPCONLY	H01J2237/20235		219
H01J2237/20242	10	Eucentric movement	CPCONLY	H01J2237/20242		26
H01J2237/2025	10	Sensing velocity of translation or rotation	CPCONLY	H01J2237/2025		17
H01J2237/20257	10	Magnetic coupling	CPCONLY	H01J2237/20257		11
H01J2237/20264	10	Piezoelectric devices	CPCONLY	H01J2237/20264		62
H01J2237/20271	10	Temperature responsive devices	CPCONLY	H01J2237/20271		12
H01J2237/20278	10	Motorised movement	CPCONLY	H01J2237/20278		133
H01J2237/20285	11	computer-controlled	CPCONLY	H01J2237/20285		161
H01J2237/20292	10	Means for position and/or orientation registration	CPCONLY	H01J2237/20292		220
H01J2237/204	9	Means for introducing and/or outputting objects	CPCONLY	H01J2237/204		264
H01J2237/206	9	Modifying objects while observing	CPCONLY	H01J2237/206		98
H01J2237/2062	10	Mechanical constraints	CPCONLY	H01J2237/2062		30
H01J2237/2065	10	Temperature variations	CPCONLY	H01J2237/2065		100
H01J2237/2067	10	Surface alteration	CPCONLY	H01J2237/2067		46
H01J2237/208	9	Elements or methods for movement independent of sample stage for influencing or moving or contacting or transferring the sample or parts thereof, e.g. prober needles or transfer needles in FIB/SEM systems	CPCONLY	H01J2237/208		162
H01J2237/21	8	Focus adjustment	CPCONLY	H01J2237/21		111
H01J2237/213	9	during electron or ion beam welding or cutting	CPCONLY	H01J2237/213		3
H01J2237/216	9	Automatic focusing methods	CPCONLY	H01J2237/216		236
H01J2237/22	8	Treatment of data	CPCONLY	H01J2237/22		107
H01J2237/221	9	Image processing	CPCONLY	H01J2237/221		543
H01J2237/223	10	Fourier techniques	CPCONLY	H01J2237/223		76
H01J2237/225	10	Displaying image using synthesised colours	CPCONLY	H01J2237/225		38
H01J2237/226	9	Image reconstruction	CPCONLY	H01J2237/226		253
H01J2237/228	10	Charged particle holography	CPCONLY	H01J2237/228		23
H01J2237/244	8	Detection characterized by the detecting means	CPCONLY	H01J2237/244		106
H01J2237/24405	9	Faraday cages	CPCONLY	H01J2237/24405		224
H01J2237/2441	9	Semiconductor detectors, e.g. diodes	CPCONLY	H01J2237/2441		147
H01J2237/24415	10	X-ray	CPCONLY	H01J2237/24415		43
H01J2237/2442	11	Energy-dispersive (Si-Li type) spectrometer	CPCONLY	H01J2237/2442		90
H01J2237/24425	11	Wavelength-dispersive spectrometer	CPCONLY	H01J2237/24425		16
H01J2237/2443	9	Scintillation detectors	CPCONLY	H01J2237/2443		236
H01J2237/24435	9	Microchannel plates	CPCONLY	H01J2237/24435		58
H01J2237/2444	9	Electron Multiplier	CPCONLY	H01J2237/2444		49
H01J2237/24445	10	using avalanche in a gas	CPCONLY	H01J2237/24445		16
H01J2237/2445	9	Photon detectors for X-rays, light, e.g. photomultipliers	CPCONLY	H01J2237/2445		333
H01J2237/24455	9	Transmitted particle detectors	CPCONLY	H01J2237/24455		109
H01J2237/2446	9	Position sensitive detectors	CPCONLY	H01J2237/2446		297
H01J2237/24465	10	Sectored detectors, e.g. quadrants	CPCONLY	H01J2237/24465		163
H01J2237/2447	10	Imaging plates	CPCONLY	H01J2237/2447		34
H01J2237/24475	9	Scattered electron detectors	CPCONLY	H01J2237/24475		347
H01J2237/2448	9	Secondary particle detectors	CPCONLY	H01J2237/2448		519
H01J2237/24485	9	Energy spectrometers	CPCONLY	H01J2237/24485		251
H01J2237/2449	9	Detector devices with moving charges in electric or magnetic fields	CPCONLY	H01J2237/2449		189
H01J2237/24495	9	Signal processing, e.g. mixing of two or more signals	CPCONLY	H01J2237/24495		328
H01J2237/245	8	Detection characterised by the variable being measured	CPCONLY	H01J2237/245		24
H01J2237/24507	9	Intensity, dose or other characteristics of particle beams or electromagnetic radiation	CPCONLY	H01J2237/24507		374
H01J2237/24514	10	Beam diagnostics including control of the parameter or property diagnosed (H01J2237/30472 takes precedence)	CPCONLY	H01J2237/24514		114
H01J2237/24521	11	Beam diameter	CPCONLY	H01J2237/24521		25
H01J2237/24528	11	Direction of beam or parts thereof in view of the optical axis, e.g. beam angle, angular distribution, beam divergence, beam convergence or beam landing angle on sample or workpiece	CPCONLY	H01J2237/24528		138
H01J2237/24535	11	Beam current	CPCONLY	H01J2237/24535		140
H01J2237/24542	11	Beam profile	CPCONLY	H01J2237/24542		149
H01J2237/2455	10	Polarisation (electromagnetic beams)	CPCONLY	H01J2237/2455		5
H01J2237/24557	10	Spin polarisation (particles)	CPCONLY	H01J2237/24557		33
H01J2237/24564	9	Measurements of electric or magnetic variables, e.g. voltage, current, frequency	CPCONLY	H01J2237/24564		463
H01J2237/24571	9	Measurements of non-electric or non-magnetic variables	CPCONLY	H01J2237/24571		34
H01J2237/24578	10	Spatial variables, e.g. position, distance	CPCONLY	H01J2237/24578		423
H01J2237/24585	10	Other variables, e.g. energy, mass, velocity, time, temperature	CPCONLY	H01J2237/24585		405
H01J2237/24592	9	Inspection and quality control of devices	CPCONLY	H01J2237/24592		445
H01J2237/248	8	Components associated with the control of the tube	CPCONLY	H01J2237/248		40
H01J2237/2482	9	Optical means	CPCONLY	H01J2237/2482		230
H01J2237/2485	9	Electric or electronic means	CPCONLY	H01J2237/2485		97
H01J2237/2487	10	using digital signal processors	CPCONLY	H01J2237/2487		72
H01J2237/25	8	Tubes for localised analysis using electron or ion beams	CPCONLY	H01J2237/25		26
H01J2237/2505	9	characterised by their application	CPCONLY	H01J2237/2505		12
H01J2237/2511	10	Auger spectrometers	CPCONLY	H01J2237/2511		26
H01J2237/2516	10	Secondary particles mass or energy spectrometry	CPCONLY	H01J2237/2516		17
H01J2237/2522	11	of electrons (ESCA, XPS)	CPCONLY	H01J2237/2522		26
H01J2237/2527	11	Ions [SIMS]	CPCONLY	H01J2237/2527		42
H01J2237/2533	11	Neutrals [SNMS]	CPCONLY	H01J2237/2533		4
H01J2237/2538	10	Low energy electron microscopy [LEEM]	CPCONLY	H01J2237/2538		41
H01J2237/2544	11	Diffraction [LEED]	CPCONLY	H01J2237/2544		14
H01J2237/255	12	Reflection diffraction [RHEED]	CPCONLY	H01J2237/255		9
H01J2237/2555	10	Microprobes, i.e. particle-induced X-ray spectrometry	CPCONLY	H01J2237/2555		21
H01J2237/2561	11	electron	CPCONLY	H01J2237/2561		61
H01J2237/2566	11	ion	CPCONLY	H01J2237/2566		26
H01J2237/2572	11	proton	CPCONLY	H01J2237/2572		4
H01J2237/2577	11	atomic	CPCONLY	H01J2237/2577		1
H01J2237/2583	10	using tunnel effects, e.g. STM, AFM	CPCONLY	H01J2237/2583		32
H01J2237/2588	10	Lorenz microscopy (magnetic field measurement)	CPCONLY	H01J2237/2588		7
H01J2237/2594	10	Measuring electric fields or potentials	CPCONLY	H01J2237/2594		61
H01J2237/26	8	Electron or ion microscopes	CPCONLY	H01J2237/26		210
H01J2237/2602	9	Details	CPCONLY	H01J2237/2602		75
H01J2237/2605	10	operating at elevated pressures, e.g. atmosphere	CPCONLY	H01J2237/2605		112
H01J2237/2608	11	with environmental specimen chamber	CPCONLY	H01J2237/2608		103
H01J2237/2611	9	Stereoscopic measurements and/or imaging	CPCONLY	H01J2237/2611		129
H01J2237/2614	9	Holography or phase contrast, phase related imaging in general, e.g. phase plates	CPCONLY	H01J2237/2614		219
H01J2237/2617	9	Comparison or superposition of transmission images; Moir&#233;	CPCONLY	H01J2237/2617		22
H01J2237/262	9	Non-scanning techniques	CPCONLY	H01J2237/262		62
H01J2237/2623	10	Field-emission microscopes	CPCONLY	H01J2237/2623		22
H01J2237/2626	11	Pulsed source	CPCONLY	H01J2237/2626		24
H01J2237/28	9	Scanning microscopes	CPCONLY	H01J2237/28		505
H01J2237/2801	10	Details	CPCONLY	H01J2237/2801		114
H01J2237/2802	10	Transmission microscopes	CPCONLY	H01J2237/2802		540
H01J2237/2803	10	characterised by the imaging method	CPCONLY	H01J2237/2803		137
H01J2237/2804	11	Scattered primary beam	CPCONLY	H01J2237/2804		90
H01J2237/2805	12	Elastic scattering	CPCONLY	H01J2237/2805		24
H01J2237/2806	11	Secondary charged particle	CPCONLY	H01J2237/2806		168
H01J2237/2807	11	X-rays	CPCONLY	H01J2237/2807		93
H01J2237/2808	11	Cathodoluminescence	CPCONLY	H01J2237/2808		91
H01J2237/2809	10	characterised by the imaging problems involved	CPCONLY	H01J2237/2809		149
H01J2237/281	11	Bottom of trenches or holes	CPCONLY	H01J2237/281		106
H01J2237/2811	11	Large objects	CPCONLY	H01J2237/2811		83
H01J2237/2812	10	Emission microscopes	CPCONLY	H01J2237/2812		31
H01J2237/2813	10	characterised by the application	CPCONLY	H01J2237/2813		103
H01J2237/2814	11	Measurement of surface topography	CPCONLY	H01J2237/2814		190
H01J2237/2815	12	Depth profile	CPCONLY	H01J2237/2815		67
H01J2237/2816	12	Length	CPCONLY	H01J2237/2816		79
H01J2237/2817	11	Pattern inspection	CPCONLY	H01J2237/2817		1232
H01J2237/2818	10	Scanning tunnelling microscopes	CPCONLY	H01J2237/2818		29
H01J2237/282	9	Determination of microscope properties	CPCONLY	H01J2237/282		53
H01J2237/2823	10	Resolution	CPCONLY	H01J2237/2823		41
H01J2237/2826	10	Calibration	CPCONLY	H01J2237/2826		274
H01J2237/285	9	Emission microscopes	CPCONLY	H01J2237/285		7
H01J2237/2852	10	Auto-emission (i.e. field-emission)	CPCONLY	H01J2237/2852		19
H01J2237/2855	10	Photo-emission	CPCONLY	H01J2237/2855		47
H01J2237/2857	10	Particle bombardment induced emission	CPCONLY	H01J2237/2857		11
H01J2237/30	8	Electron or ion beam tubes for processing objects	CPCONLY	H01J2237/30		30
H01J2237/303	9	Electron or ion optical systems	CPCONLY	H01J2237/303		69
H01J2237/304	9	Controlling tubes	CPCONLY	H01J2237/304		100
H01J2237/30405	10	Details	CPCONLY	H01J2237/30405		23
H01J2237/30411	11	using digital signal processors [DSP]	CPCONLY	H01J2237/30411		46
H01J2237/30416	11	Handling of data	CPCONLY	H01J2237/30416		40
H01J2237/30422	12	Data compression	CPCONLY	H01J2237/30422		17
H01J2237/30427	11	using neural networks or fuzzy logic	CPCONLY	H01J2237/30427		18
H01J2237/30433	10	System calibration	CPCONLY	H01J2237/30433		172
H01J2237/30438	11	Registration	CPCONLY	H01J2237/30438		160
H01J2237/30444	12	Calibration grids	CPCONLY	H01J2237/30444		22
H01J2237/3045	11	Deflection calibration	CPCONLY	H01J2237/3045		110
H01J2237/30455	10	Correction during exposure	CPCONLY	H01J2237/30455		242
H01J2237/30461	11	pre-calculated	CPCONLY	H01J2237/30461		129
H01J2237/30466	10	Detecting endpoint of process	CPCONLY	H01J2237/30466		119
H01J2237/30472	10	Controlling the beam	CPCONLY	H01J2237/30472		263
H01J2237/30477	11	Beam diameter	CPCONLY	H01J2237/30477		75
H01J2237/30483	11	Scanning	CPCONLY	H01J2237/30483		166
H01J2237/30488	12	Raster scan	CPCONLY	H01J2237/30488		104
H01J2237/30494	12	Vector scan	CPCONLY	H01J2237/30494		22
H01J2237/31	9	Processing objects on a macro-scale	CPCONLY	H01J2237/31		93
H01J2237/3104	10	Welding	CPCONLY	H01J2237/3104		42
H01J2237/3109	10	Cutting	CPCONLY	H01J2237/3109		24
H01J2237/3114	10	Machining	CPCONLY	H01J2237/3114		60
H01J2237/3118	10	Drilling	CPCONLY	H01J2237/3118		11
H01J2237/3123	10	Casting	CPCONLY	H01J2237/3123		2
H01J2237/3128	10	Melting	CPCONLY	H01J2237/3128		47
H01J2237/3132	10	Evaporating	CPCONLY	H01J2237/3132		114
H01J2237/3137	11	Plasma-assisted co-operation	CPCONLY	H01J2237/3137		37
H01J2237/3142	10	Ion plating	CPCONLY	H01J2237/3142		55
H01J2237/3146	11	Ion beam bombardment sputtering	CPCONLY	H01J2237/3146		63
H01J2237/3151	10	Etching	CPCONLY	H01J2237/3151		218
H01J2237/3156	10	Curing	CPCONLY	H01J2237/3156		21
H01J2237/316	10	Changing physical properties	CPCONLY	H01J2237/316		70
H01J2237/3165	10	Changing chemical properties	CPCONLY	H01J2237/3165		32
H01J2237/317	9	Processing objects on a microscale	CPCONLY	H01J2237/317		78
H01J2237/31701	10	Ion implantation	CPCONLY	H01J2237/31701		705
H01J2237/31703	11	Dosimetry	CPCONLY	H01J2237/31703		266
H01J2237/31705	11	Impurity or contaminant control	CPCONLY	H01J2237/31705		187
H01J2237/31706	11	characterised by the area treated	CPCONLY	H01J2237/31706		21
H01J2237/31708	12	unpatterned	CPCONLY	H01J2237/31708		12
H01J2237/3171	12	patterned	CPCONLY	H01J2237/3171		26
H01J2237/31711	13	using mask	CPCONLY	H01J2237/31711		97
H01J2237/31713	13	Focused ion beam	CPCONLY	H01J2237/31713		41
H01J2237/31732	10	Depositing thin layers on selected microareas	CPCONLY	H01J2237/31732		134
H01J2237/31733	11	using STM	CPCONLY	H01J2237/31733		5
H01J2237/31735	10	Direct-write microstructures	CPCONLY	H01J2237/31735		43
H01J2237/31737	11	using ions	CPCONLY	H01J2237/31737		32
H01J2237/31738	11	using STM	CPCONLY	H01J2237/31738		25
H01J2237/3174	10	Etching microareas	CPCONLY	H01J2237/3174		259
H01J2237/31742	11	for repairing masks	CPCONLY	H01J2237/31742		36
H01J2237/31744	12	introducing gas in vicinity of workpiece	CPCONLY	H01J2237/31744		122
H01J2237/31745	11	for preparing specimen to be viewed in microscopes or analyzed in microanalysers	CPCONLY	H01J2237/31745		532
H01J2237/31747	11	using STM	CPCONLY	H01J2237/31747		11
H01J2237/31749	10	Focused ion beam	CPCONLY	H01J2237/31749		618
H01J2237/3175	10	Lithography	CPCONLY	H01J2237/3175		423
H01J2237/31752	11	using particular beams or near-field effects, e.g. STM-like techniques	CPCONLY	H01J2237/31752		12
H01J2237/31754	12	using electron beams	CPCONLY	H01J2237/31754		88
H01J2237/31755	12	using ion beams	CPCONLY	H01J2237/31755		66
H01J2237/31757	12	hybrid, i.e. charged particles and light, X-rays, plasma	CPCONLY	H01J2237/31757		13
H01J2237/31759	12	using near-field effects, e.g. STM	CPCONLY	H01J2237/31759		18
H01J2237/31761	11	Patterning strategy	CPCONLY	H01J2237/31761		110
H01J2237/31762	12	Computer and memory organisation	CPCONLY	H01J2237/31762		154
H01J2237/31764	12	Dividing into sub-patterns	CPCONLY	H01J2237/31764		282
H01J2237/31766	12	Continuous moving of wafer	CPCONLY	H01J2237/31766		104
H01J2237/31767	12	Step and repeat	CPCONLY	H01J2237/31767		21
H01J2237/31769	11	Proximity effect correction	CPCONLY	H01J2237/31769		228
H01J2237/31771	12	using multiple exposure	CPCONLY	H01J2237/31771		66
H01J2237/31772	11	Flood beam	CPCONLY	H01J2237/31772		2
H01J2237/31774	11	Multi-beam	CPCONLY	H01J2237/31774		250
H01J2237/31776	11	Shaped beam	CPCONLY	H01J2237/31776		326
H01J2237/31777	11	by projection	CPCONLY	H01J2237/31777		26
H01J2237/31779	12	from patterned photocathode	CPCONLY	H01J2237/31779		76
H01J2237/31781	12	from patterned cold cathode	CPCONLY	H01J2237/31781		11
H01J2237/31783	13	M-I-M cathode	CPCONLY	H01J2237/31783		3
H01J2237/31784	13	Semiconductor cathode	CPCONLY	H01J2237/31784		4
H01J2237/31786	13	Field-emitting cathode	CPCONLY	H01J2237/31786		11
H01J2237/31788	12	through mask	CPCONLY	H01J2237/31788		106
H01J2237/31789	12	Reflection mask	CPCONLY	H01J2237/31789		28
H01J2237/31791	12	Scattering mask	CPCONLY	H01J2237/31791		18
H01J2237/31793	11	Problems associated with lithography	CPCONLY	H01J2237/31793		73
H01J2237/31794	12	affecting masks	CPCONLY	H01J2237/31794		112
H01J2237/31796	12	affecting resists	CPCONLY	H01J2237/31796		50
H01J2237/31798	12	detecting pattern defects	CPCONLY	H01J2237/31798		47
H01J2237/32	8	Processing objects by plasma generation	CPCONLY	H01J2237/32		56
H01J2237/327	9	Arrangements for generating the plasma	CPCONLY	H01J2237/327		369
H01J2237/33	9	characterised by the type of processing	CPCONLY	H01J2237/33		55
H01J2237/332	10	Coating	CPCONLY	H01J2237/332		1220
H01J2237/3321	11	CVD [Chemical Vapor Deposition]	CPCONLY	H01J2237/3321		1539
H01J2237/3322	11	Problems associated with coating	CPCONLY	H01J2237/3322		55
H01J2237/3323	12	uniformity	CPCONLY	H01J2237/3323		241
H01J2237/3325	12	large area	CPCONLY	H01J2237/3325		43
H01J2237/3326	12	high speed	CPCONLY	H01J2237/3326		15
H01J2237/3327	12	Coating high aspect ratio workpieces	CPCONLY	H01J2237/3327		78
H01J2237/3328	12	adhesion, stress, lift-off of deposited films	CPCONLY	H01J2237/3328		24
H01J2237/334	10	Etching	CPCONLY	H01J2237/334		3649
H01J2237/3341	11	Reactive etching	CPCONLY	H01J2237/3341		750
H01J2237/3342	11	Resist stripping	CPCONLY	H01J2237/3342		120
H01J2237/3343	11	Problems associated with etching	CPCONLY	H01J2237/3343		297
H01J2237/3344	12	isotropy	CPCONLY	H01J2237/3344		72
H01J2237/3345	12	anisotropy	CPCONLY	H01J2237/3345		90
H01J2237/3346	12	Selectivity	CPCONLY	H01J2237/3346		117
H01J2237/3347	12	bottom of holes or trenches	CPCONLY	H01J2237/3347		85
H01J2237/3348	12	control of ion bombardment energy	CPCONLY	H01J2237/3348		73
H01J2237/335	10	Cleaning	CPCONLY	H01J2237/335		559
H01J2237/3355	11	Holes or apertures, i.e. inprinted circuit boards	CPCONLY	H01J2237/3355		26
H01J2237/336	10	Changing physical properties of treated surfaces	CPCONLY	H01J2237/336		113
H01J2237/3365	11	Plasma source implantation	CPCONLY	H01J2237/3365		47
H01J2237/338	10	Changing chemical properties of treated surfaces	CPCONLY	H01J2237/338		93
H01J2237/3382	11	Polymerising	CPCONLY	H01J2237/3382		121
H01J2237/3385	11	Carburising	CPCONLY	H01J2237/3385		8
H01J2237/3387	11	Nitriding	CPCONLY	H01J2237/3387		42
H01J2237/339	10	Synthesising components	CPCONLY	H01J2237/339		24
H01J2261/00	7	Gas- or vapour-discharge lamps	CPCONLY	H01J2261/00		4
H01J2261/02	8	Details	CPCONLY	H01J2261/02		8
H01J2261/38	9	Devices for influencing the colour or wavelength of the light	CPCONLY	H01J2261/38		8
H01J2261/385	10	Non-chemical aspects of luminescent layers, e.g. thickness profile, shape and distribution of luminescent coatings	CPCONLY	H01J2261/385		37
H01J2329/00	7	Electron emission display panels, e.g. field emission display panels	CPCONLY	H01J2329/00		790
H01J2329/002	8	Cooling means	CPCONLY	H01J2329/002		50
H01J2329/005	8	Multi-directional displaying, i.e. with multiple display faces facing in different directions	CPCONLY	H01J2329/005		1
H01J2329/007	8	Vacuumless display panels, i.e. with phosphor directly applied to emitter without intermediate vacuum space	CPCONLY	H01J2329/007		1
H01J2329/02	8	Electrodes other than control electrodes	CPCONLY	H01J2329/02		13
H01J2329/04	9	Cathode electrodes	CPCONLY	H01J2329/04		10
H01J2329/0402	10	Thermionic cathodes	CPCONLY	H01J2329/0402		25
H01J2329/0405	10	Cold cathodes other than those covered by H01J2329/0407 - H01J2329/0492	CPCONLY	H01J2329/0405		3
H01J2329/0407	10	Field emission cathodes	CPCONLY	H01J2329/0407		29
H01J2329/041	11	characterised by the emitter shape	CPCONLY	H01J2329/041		23
H01J2329/0413	12	Microengineered point emitters	CPCONLY	H01J2329/0413		40
H01J2329/0415	13	conical shaped, e.g. Spindt type	CPCONLY	H01J2329/0415		80
H01J2329/0418	13	needle shaped	CPCONLY	H01J2329/0418		3
H01J2329/0421	12	Pillar shaped emitters	CPCONLY	H01J2329/0421		3
H01J2329/0423	12	Microengineered edge emitters	CPCONLY	H01J2329/0423		28
H01J2329/0426	12	Coatings on the emitter surface, e.g. with low work function materials	CPCONLY	H01J2329/0426		23
H01J2329/0428	12	Fibres	CPCONLY	H01J2329/0428		5
H01J2329/0431	12	Nanotubes	CPCONLY	H01J2329/0431		21
H01J2329/0434	12	Particles	CPCONLY	H01J2329/0434		1
H01J2329/0436	12	Whiskers	CPCONLY	H01J2329/0436		3
H01J2329/0439	11	characterised by the emitter material	CPCONLY	H01J2329/0439		27
H01J2329/0442	12	Metals or metal alloys	CPCONLY	H01J2329/0442		55
H01J2329/0444	12	Carbon types	CPCONLY	H01J2329/0444		43
H01J2329/0447	13	Diamond	CPCONLY	H01J2329/0447		34
H01J2329/0449	13	Graphite	CPCONLY	H01J2329/0449		19
H01J2329/0452	13	Fullerenes	CPCONLY	H01J2329/0452		1
H01J2329/0455	13	Carbon nanotubes (CNTs)	CPCONLY	H01J2329/0455		132
H01J2329/0457	13	Amorphous carbon	CPCONLY	H01J2329/0457		6
H01J2329/046	13	Diamond-like carbon [DLC]	CPCONLY	H01J2329/046		16
H01J2329/0463	12	Semiconductor materials	CPCONLY	H01J2329/0463		19
H01J2329/0465	12	Carbides	CPCONLY	H01J2329/0465		3
H01J2329/0468	12	Nitrides	CPCONLY	H01J2329/0468		2
H01J2329/0471	12	Borides	CPCONLY	H01J2329/0471		6
H01J2329/0473	12	Oxides	CPCONLY	H01J2329/0473		4
H01J2329/0476	10	Ferroelectric cathodes	CPCONLY	H01J2329/0476		1
H01J2329/0478	10	Semiconductor cathodes, e.g. having PN junction layers	CPCONLY	H01J2329/0478		7
H01J2329/0481	10	Cold cathodes having an electric field perpendicular to the surface thereof (H01J2329/0407 - H01J2329/0478 take precedence)	CPCONLY	H01J2329/0481		4
H01J2329/0484	11	Metal-Insulator-Metal [MIM] emission type cathodes	CPCONLY	H01J2329/0484		22
H01J2329/0486	10	Cold cathodes having an electric field parallel to the surface thereof, e.g. thin film cathodes	CPCONLY	H01J2329/0486		13
H01J2329/0489	11	Surface conduction emission type cathodes	CPCONLY	H01J2329/0489		58
H01J2329/0492	10	Cold cathodes combined with other synergetic effects, e.g. secondary, photo- or thermal emission	CPCONLY	H01J2329/0492		2
H01J2329/0494	10	Circuit elements associated with the emitters by direct integration	CPCONLY	H01J2329/0494		14
H01J2329/0497	11	Resistive members, e.g. resistive layers	CPCONLY	H01J2329/0497		31
H01J2329/08	9	Anode electrodes	CPCONLY	H01J2329/08		96
H01J2329/18	8	Luminescent screens	CPCONLY	H01J2329/18		18
H01J2329/20	9	characterised by the luminescent material	CPCONLY	H01J2329/20		65
H01J2329/22	9	characterised by the binder or adhesive for securing the luminescent material to its support, e.g. substrate	CPCONLY	H01J2329/22		17
H01J2329/28	9	with protective, conductive or reflective layers	CPCONLY	H01J2329/28		86
H01J2329/30	9	Shape or geometrical arrangement of the luminescent material	CPCONLY	H01J2329/30		33
H01J2329/32	9	Means associated with discontinuous arrangements of the luminescent material	CPCONLY	H01J2329/32		10
H01J2329/323	10	Black matrix	CPCONLY	H01J2329/323		88
H01J2329/326	10	Color filters structurally combined with the luminescent material	CPCONLY	H01J2329/326		29
H01J2329/46	8	Arrangements of electrodes and associated parts for generating or controlling the electron beams	CPCONLY	H01J2329/46		42
H01J2329/4604	9	Control electrodes	CPCONLY	H01J2329/4604		23
H01J2329/4608	10	Gate electrodes	CPCONLY	H01J2329/4608		37
H01J2329/4613	11	characterised by the form or structure	CPCONLY	H01J2329/4613		38
H01J2329/4617	12	Shapes or dimensions of gate openings	CPCONLY	H01J2329/4617		24
H01J2329/4621	12	Arrangement of gate openings	CPCONLY	H01J2329/4621		2
H01J2329/4626	12	Curved or extending upwardly	CPCONLY	H01J2329/4626		5
H01J2329/463	11	characterised by the material	CPCONLY	H01J2329/463		29
H01J2329/4634	11	Relative position to the emitters, cathodes or substrates	CPCONLY	H01J2329/4634		18
H01J2329/4639	10	Focusing electrodes	CPCONLY	H01J2329/4639		19
H01J2329/4643	11	characterised by the form or structure	CPCONLY	H01J2329/4643		5
H01J2329/4647	12	Shapes or dimensions of focusing electrode openings	CPCONLY	H01J2329/4647		7
H01J2329/4652	12	Arrangement of focusing electrode openings	CPCONLY	H01J2329/4652		2
H01J2329/4656	11	characterised by the material	CPCONLY	H01J2329/4656		2
H01J2329/466	11	Relative position to the gate electrodes, emitters, cathodes or substrates	CPCONLY	H01J2329/466		8
H01J2329/4665	12	In the same plane as the gate electrodes or cathodes	CPCONLY	H01J2329/4665		
H01J2329/4669	9	Insulation layers	CPCONLY	H01J2329/4669		55
H01J2329/4673	10	for gate electrodes	CPCONLY	H01J2329/4673		37
H01J2329/4678	10	for focusing electrodes	CPCONLY	H01J2329/4678		1
H01J2329/4682	10	characterised by the shape	CPCONLY	H01J2329/4682		10
H01J2329/4686	11	Dimensions of openings	CPCONLY	H01J2329/4686		3
H01J2329/4691	10	characterised by the material	CPCONLY	H01J2329/4691		13
H01J2329/4695	9	Potentials applied to the electrodes	CPCONLY	H01J2329/4695		17
H01J2329/86	8	Vessels	CPCONLY	H01J2329/86		12
H01J2329/8605	9	Front or back plates	CPCONLY	H01J2329/8605		17
H01J2329/861	10	characterised by the shape	CPCONLY	H01J2329/861		58
H01J2329/8615	10	characterised by the material	CPCONLY	H01J2329/8615		26
H01J2329/862	9	Frames	CPCONLY	H01J2329/862		52
H01J2329/8625	9	Spacing members	CPCONLY	H01J2329/8625		407
H01J2329/863	10	characterised by the form or structure	CPCONLY	H01J2329/863		483
H01J2329/8635	11	having a corrugated lateral surface	CPCONLY	H01J2329/8635		64
H01J2329/864	10	characterised by the material	CPCONLY	H01J2329/864		333
H01J2329/8645	10	with coatings on the lateral surfaces thereof	CPCONLY	H01J2329/8645		188
H01J2329/865	10	Connection of the spacing members to the substrates or electrodes	CPCONLY	H01J2329/865		44
H01J2329/8655	11	Conductive or resistive layers	CPCONLY	H01J2329/8655		125
H01J2329/866	11	Adhesives	CPCONLY	H01J2329/866		107
H01J2329/8665	10	Spacer holding means	CPCONLY	H01J2329/8665		77
H01J2329/867	9	Seals between parts of vessels	CPCONLY	H01J2329/867		46
H01J2329/8675	10	Seals between the frame and the front and/or back plate	CPCONLY	H01J2329/8675		52
H01J2329/868	9	Passive shielding means of vessels	CPCONLY	H01J2329/868		38
H01J2329/8685	10	Antistatic shielding	CPCONLY	H01J2329/8685		15
H01J2329/869	10	Electromagnetic shielding	CPCONLY	H01J2329/869		83
H01J2329/8695	10	Mechanical shielding, e.g. against water or abrasion	CPCONLY	H01J2329/8695		1
H01J2329/88	9	Coatings on walls of the vessels (H01J2329/18, H01J2329/868, H01J2329/89 take precedence)	CPCONLY	H01J2329/88		8
H01J2329/89	9	Optical components structurally combined with the vessel	CPCONLY	H01J2329/89		8
H01J2329/892	10	Anti-reflection, anti-glare, viewing angle and contrast improving means	CPCONLY	H01J2329/892		43
H01J2329/895	10	Spectral filters	CPCONLY	H01J2329/895		10
H01J2329/897	10	Lenses	CPCONLY	H01J2329/897		12
H01J2329/90	8	Leading-in arrangements; seals therefor	CPCONLY	H01J2329/90		43
H01J2329/92	8	Means forming part of the display panel for the purpose of providing electrical connection to it	CPCONLY	H01J2329/92		90
H01J2329/94	8	Means for exhausting the vessel or maintaining vacuum within the vessel	CPCONLY	H01J2329/94		17
H01J2329/941	9	Means for exhausting the vessel	CPCONLY	H01J2329/941		81
H01J2329/943	9	Means for maintaining vacuum within the vessel	CPCONLY	H01J2329/943		13
H01J2329/945	10	by gettering	CPCONLY	H01J2329/945		35
H01J2329/946	11	characterised by the position or form of the getter	CPCONLY	H01J2329/946		91
H01J2329/948	11	characterised by the material of the getter	CPCONLY	H01J2329/948		35
H01J2329/96	8	Circuit elements structurally associated with the display panels (H01J2329/0494 takes precedence)	CPCONLY	H01J2329/96		24
H01J2893/00	7	Discharge tubes and lamps	CPCONLY	H01J2893/00		
H01J2893/0001	8	Electrodes and electrode systems suitable for discharge tubes or lamps	CPCONLY	H01J2893/0001		316
H01J2893/0002	9	Construction arrangements of electrode systems	CPCONLY	H01J2893/0002		748
H01J2893/0003	10	Anodes forming part of vessel walls	CPCONLY	H01J2893/0003		321
H01J2893/0004	11	Anodes formed in central part	CPCONLY	H01J2893/0004		45
H01J2893/0005	10	Fixing of electrodes	CPCONLY	H01J2893/0005		368
H01J2893/0006	11	Mounting	CPCONLY	H01J2893/0006		204
H01J2893/0007	12	Machines for assembly	CPCONLY	H01J2893/0007		81
H01J2893/0008	11	Supply leads; Electrode supports via rigid connection to vessel	CPCONLY	H01J2893/0008		258
H01J2893/0009	11	Electrode system pressing against vessel wall	CPCONLY	H01J2893/0009		136
H01J2893/001	9	Non-constructive schematic arrangements	CPCONLY	H01J2893/001		164
H01J2893/0011	9	Non-emitting electrodes	CPCONLY	H01J2893/0011		62
H01J2893/0012	9	Constructional arrangements	CPCONLY	H01J2893/0012		40
H01J2893/0013	10	Sealed electrodes	CPCONLY	H01J2893/0013		269
H01J2893/0015	10	Non-sealed electrodes	CPCONLY	H01J2893/0015		269
H01J2893/0016	11	Planar grids	CPCONLY	H01J2893/0016		106
H01J2893/0017	11	Cylindrical, helical or annular grids	CPCONLY	H01J2893/0017		36
H01J2893/0018	11	Bar or cage-like grids	CPCONLY	H01J2893/0018		47
H01J2893/0019	10	Chemical composition and manufacture	CPCONLY	H01J2893/0019		90
H01J2893/002	11	chemical	CPCONLY	H01J2893/002		311
H01J2893/0021	12	carbon	CPCONLY	H01J2893/0021		93
H01J2893/0022	11	Manufacture	CPCONLY	H01J2893/0022		240
H01J2893/0023	12	carbonising and other surface treatments	CPCONLY	H01J2893/0023		208
H01J2893/0024	12	Planar grids	CPCONLY	H01J2893/0024		155
H01J2893/0025	12	by winding wire upon a support	CPCONLY	H01J2893/0025		161
H01J2893/0026	10	Machines for manufacture of grids or anodes	CPCONLY	H01J2893/0026		192
H01J2893/0027	10	Mitigation of temperature effects	CPCONLY	H01J2893/0027		654
H01J2893/0029	8	Electron beam tubes	CPCONLY	H01J2893/0029		261
H01J2893/003	8	Tubes with plural electrode systems	CPCONLY	H01J2893/003		518
H01J2893/0031	8	Tubes with material luminescing under electron bombardment	CPCONLY	H01J2893/0031		85
H01J2893/0032	8	Tubes with variable amplification factor	CPCONLY	H01J2893/0032		94
H01J2893/0033	8	Vacuum connection techniques applicable to discharge tubes and lamps	CPCONLY	H01J2893/0033		
H01J2893/0034	9	Lamp bases	CPCONLY	H01J2893/0034		416
H01J2893/0035	10	shaped as flat plates, in particular metallic	CPCONLY	H01J2893/0035		139
H01J2893/0036	10	having wires, ribbons or tubes placed between two vessel walls and being perpendicular to at least one of said walls	CPCONLY	H01J2893/0036		16
H01J2893/0037	9	Solid sealing members other than lamp bases	CPCONLY	H01J2893/0037		256
H01J2893/0038	10	Direct connection between two insulating elements, in particular via glass material	CPCONLY	H01J2893/0038		64
H01J2893/0039	11	Glass-to-glass connection, e.g. by soldering	CPCONLY	H01J2893/0039		493
H01J2893/004	11	Quartz-to-quartz connection	CPCONLY	H01J2893/004		20
H01J2893/0041	10	Direct connection between insulating and metal elements, in particular via glass material	CPCONLY	H01J2893/0041		140
H01J2893/0043	11	Glass-to-metal or quartz-to-metal, e.g. by soldering	CPCONLY	H01J2893/0043		288
H01J2893/0044	10	Direct connection between two metal elements, in particular via material a connecting material	CPCONLY	H01J2893/0044		142
H01J2893/0045	9	Non-solid connections, e.g. liquid or rubber	CPCONLY	H01J2893/0045		8
H01J2893/0046	9	Lamp base with closure	CPCONLY	H01J2893/0046		45
H01J2893/0047	9	Closure other than lamp base	CPCONLY	H01J2893/0047		128
H01J2893/0048	8	Tubes with a main cathode	CPCONLY	H01J2893/0048		1
H01J2893/0049	9	Internal parts	CPCONLY	H01J2893/0049		19
H01J2893/005	9	Cathodes	CPCONLY	H01J2893/005		20
H01J2893/0051	9	Anode assemblies; screens for influencing the discharge	CPCONLY	H01J2893/0051		67
H01J2893/0052	10	Anode supporting means	CPCONLY	H01J2893/0052		2
H01J2893/0053	10	Leading in for anodes; Protecting means for anode supports	CPCONLY	H01J2893/0053		19
H01J2893/0054	10	Cooling means	CPCONLY	H01J2893/0054		13
H01J2893/0055	9	Movable screens	CPCONLY	H01J2893/0055		18
H01J2893/0056	9	Parts inside tubes brought to incandescence by the discharge	CPCONLY	H01J2893/0056		41
H01J2893/0058	9	Grids; Auxiliary internal or external electrodes	CPCONLY	H01J2893/0058		43
H01J2893/0059	8	Arc discharge tubes	CPCONLY	H01J2893/0059		229
H01J2893/006	8	Tubes with electron bombarded gas (e.g. with plasma filter)	CPCONLY	H01J2893/006		25
H01J2893/0061	8	Tubes with discharge used as electron source	CPCONLY	H01J2893/0061		197
H01J2893/0062	8	Tubes with temperature ionized gas as electron source	CPCONLY	H01J2893/0062		24
H01J2893/0063	8	Plasma light sources	CPCONLY	H01J2893/0063		50
H01J2893/0064	8	Tubes with cold main electrodes (including cold cathodes)	CPCONLY	H01J2893/0064		449
H01J2893/0065	9	Electrode systems	CPCONLY	H01J2893/0065		115
H01J2893/0066	10	Construction, material, support, protection and temperature regulation of electrodes; Electrode cups	CPCONLY	H01J2893/0066		552
H01J2893/0067	10	Electrode assembly without control electrodes, e.g. including a screen	CPCONLY	H01J2893/0067		290
H01J2893/0068	10	electrode assembly with control electrodes, e.g. including a screen	CPCONLY	H01J2893/0068		177
H01J2893/0069	8	Tubes for displaying characters	CPCONLY	H01J2893/0069		138
H01J2893/007	8	Sequential discharge tubes	CPCONLY	H01J2893/007		313
H01J2893/0072	8	Disassembly or repair of discharge tubes	CPCONLY	H01J2893/0072		79
H01J2893/0073	9	Discharge tubes with liquid poolcathodes; constructional details	CPCONLY	H01J2893/0073		382
H01J2893/0074	10	Cathodic cups; Screens; Reflectors; Filters; Windows; Protection against mercury deposition; Returning condensed electrode material to the cathodic cup; Liquid electrode level control	CPCONLY	H01J2893/0074		61
H01J2893/0075	11	Cathodic cups	CPCONLY	H01J2893/0075		78
H01J2893/0076	12	Liquid electrode materials	CPCONLY	H01J2893/0076		28
H01J2893/0077	12	Cathodic cup construction; Cathodic spot control	CPCONLY	H01J2893/0077		67
H01J2893/0078	12	Mounting cathodic cups in the discharge tube	CPCONLY	H01J2893/0078		61
H01J2893/0079	12	Means for limiting the cathodic spot movement	CPCONLY	H01J2893/0079		23
H01J2893/008	12	Means for stabilising the cathodic spot	CPCONLY	H01J2893/008		62
H01J2893/0081	12	Cooling means	CPCONLY	H01J2893/0081		27
H01J2893/0082	11	Returning condensed electrode material to the cathodic cup, e.g. including cleaning	CPCONLY	H01J2893/0082		36
H01J2893/0083	11	Liquid electrode level control	CPCONLY	H01J2893/0083		42
H01J2893/0084	11	Protection against mercury deposition	CPCONLY	H01J2893/0084		51
H01J2893/0086	11	Gas fill; Maintaining or maintaining desired pressure; Producing, introducing or replenishing gas or vapour during operation of the tube; Getters; Gas cleaning; Electrode cleaning	CPCONLY	H01J2893/0086		190
H01J2893/0087	11	Igniting means; Cathode spot maintaining or extinguishing means	CPCONLY	H01J2893/0087		586
H01J2893/0088	9	Tubes with at least a solid principal cathode and solid anodes	CPCONLY	H01J2893/0088		314
H01J2893/0089	10	Electrode systems	CPCONLY	H01J2893/0089		37
H01J2893/009	10	Anode systems; Screens	CPCONLY	H01J2893/009		133
H01J2893/0091	11	Anode supporting means	CPCONLY	H01J2893/0091		68
H01J2893/0092	11	Anodic screens or grids	CPCONLY	H01J2893/0092		207
H01J2893/0093	11	Anodic arms	CPCONLY	H01J2893/0093		19
H01J2893/0094	10	Electrode arrangements; Auxiliary electrodes	CPCONLY	H01J2893/0094		22
H01J2893/0095	9	Tubes with exclusively liquid main electrodes	CPCONLY	H01J2893/0095		162
H01J2893/0096	8	Transport of discharge tube components during manufacture, e.g. wires, coils, lamps, contacts, etc.	CPCONLY	H01J2893/0096		350
H01J2893/0097	9	Incandescent wires of coils	CPCONLY	H01J2893/0097		66
H01J2893/0098	9	Vessels	CPCONLY	H01J2893/0098		66
