H05H1/00	7	Generating plasma; Handling plasma	H05H1/00	H05H1/00		267
H05H1/0006	8	{Investigating plasma, e.g. measuring the degree of ionisation or the electron temperature}	H05H1/00	H05H1/00		290
H05H1/0012	9	{using electromagnetic or particle radiation, e.g. interferometry}	H05H1/00	H05H1/00		40
H05H1/0018	10	{Details}	H05H1/00	H05H1/00		61
H05H1/0025	10	{by using photoelectric means (H05H1/0031&#160;-&#160;H05H1/0043 take precedence)}	H05H1/00	H05H1/00		134
H05H1/0031	10	{by interferrometry}	H05H1/00	H05H1/00		6
H05H1/0037	10	{by spectrometry}	H05H1/00	H05H1/00		161
H05H1/0043	10	{by using infrared or ultraviolet radiation}	H05H1/00	H05H1/00		32
H05H1/005	10	{by using X-rays or alpha rays}	H05H1/00	H05H1/00		13
H05H1/0056	10	{by using neutrons}	H05H1/00	H05H1/00		2
H05H1/0062	10	{by using microwaves}	H05H1/00	H05H1/00		79
H05H1/0068	9	{by thermal means}	H05H1/00	H05H1/00		13
H05H1/0075	10	{Langmuir probes}	H05H1/00	H05H1/00		50
H05H1/0081	9	{by electric means}	H05H1/00	H05H1/00		280
H05H1/0087	9	{by magnetic means}	H05H1/00	H05H1/00		38
H05H1/0093	9	{by acoustic means, e.g. ultrasonic}	H05H1/00	H05H1/00		8
H05H1/01	8	{Handling plasma, e.g. of subatomic particles}	H05H1/00	H05H1/01		134
H05H1/02	8	Arrangements for confining plasma by electric or magnetic fields; Arrangements for heating plasma ({G21B1/00 takes precedence;} electron optics H01J)	H05H1/02	H05H1/02		276
H05H1/03	9	using electrostatic fields	H05H1/03	H05H1/03		63
H05H1/04	9	using magnetic fields substantially generated by the discharge in the plasma	H05H1/04	H05H1/04		122
H05H1/06	10	Longitudinal pinch devices	H05H1/06	H05H1/06		66
H05H1/08	10	Theta pinch devices {, e.g. SCYLLA}	H05H1/08	H05H1/08		15
H05H1/10	9	using externally-applied magnetic fields only {, e.g. Q-machines, Yin-Yang, base-ball}	H05H1/10	H05H1/10		162
H05H1/105	10	{using magnetic pumping}	H05H1/10	H05H1/10		9
H05H1/11	10	using cusp configuration (H05H1/14 takes precedence)	H05H1/11	H05H1/11		47
H05H1/12	10	wherein the containment vessel forms a closed or nearly closed loop {(G21B1/05 takes precedence)}	H05H1/12	H05H1/12		190
H05H1/14	10	wherein the containment vessel is straight and has magnetic mirrors	H05H1/14	H05H1/14		83
H05H1/16	9	using externally-applied electric and magnetic fields	H05H1/16	H05H1/16		185
H05H1/18	10	wherein the fields oscillate at very high frequency, e.g. in the microwave range {, e.g. using cyclotron resonance}	H05H1/18	H05H1/18		152
H05H1/20	9	Ohmic heating	H05H1/20	H05H1/20		24
H05H1/22	9	for injection heating {(G21B1/15 takes precedence)}	H05H1/22	H05H1/22		154
H05H1/24	8	Generating plasma {(nuclear fusion reactors G21B1/00; gas-filled discharge reactors H01J37/32)}	H05H1/24	H05H1/24		1930
H05H1/2406	9	{using dielectric barrier discharges, i.e. with a dielectric interposed between the electrodes}	H05H1/24	H05H1/24		1651
H05H1/2418	10	{the electrodes being embedded in the dielectric}	H05H1/24	H05H1/24		576
H05H1/2425	10	{the electrodes being flush with the dielectric}	H05H1/24	H05H1/24		71
H05H1/2431	10	{using cylindrical electrodes, e.g. rotary drums}	H05H1/24	H05H1/24		244
H05H1/2437	10	{Multilayer systems}	H05H1/24	H05H1/24		189
H05H1/2439	10	{Surface discharges, e.g. air flow control}	H05H1/24	H05H1/24		192
H05H1/2441	10	{characterised by the physical-chemical properties of the dielectric, e.g. porous dielectric}	H05H1/24	H05H1/24		155
H05H1/2443	10	{the plasma fluid flowing through a dielectric tube}	H05H1/24	H05H1/24		154
H05H1/245	11	{the plasma being activated using internal electrodes}	H05H1/24	H05H1/24		160
H05H1/246	11	{the plasma being activated using external electrodes (H05H1/245 takes precedence)}	H05H1/24	H05H1/24		120
H05H1/2465	11	{the plasma being activated by inductive coupling, e.g. using coiled electrodes}	H05H1/24	H05H1/24		138
H05H1/247	9	{using discharges in liquid media}	H05H1/24	H05H1/24		136
H05H1/2475	9	{using acoustic pressure discharges}	H05H1/24	H05H1/24		49
H05H1/2481	10	{the plasma being activated using piezoelectric actuators}	H05H1/24	H05H1/24		64
H05H1/2487	10	{the plasma being activated using mechanical actuators}	H05H1/24	H05H1/24		3
H05H1/2493	10	{the plasma being activated using horns}	H05H1/24	H05H1/24		1
H05H1/26	9	Plasma torches	H05H1/26	H05H1/26		642
H05H1/28	10	Cooling arrangements	H05H1/28	H05H1/28		774
H05H1/30	10	using applied electromagnetic fields, e.g. high frequency or microwave energy (H05H1/28 takes precedence)	H05H1/30	H05H1/30		773
H05H1/32	10	using an arc (H05H1/28 takes precedence)	H05H1/32	H05H1/32		300
H05H1/34	11	Details, e.g. electrodes, nozzles	H05H1/34	H05H1/34		2033
H05H1/3405	12	{Arrangements for stabilising or constricting the arc, e.g. by an additional gas flow}	H05H1/34	H05H1/34		260
H05H1/341	12	{Arrangements for providing coaxial protecting fluids}	H05H1/34	H05H1/34		139
H05H1/3421	12	{Transferred arc or pilot arc mode}	H05H1/34	H05H1/34		225
H05H1/3423	12	{Connecting means, e.g. electrical connecting means or fluid connections}	H05H1/34	H05H1/34		170
H05H1/3425	12	{Melting or consuming electrodes}	H05H1/34	H05H1/34		21
H05H1/3431	12	{Coaxial cylindrical electrodes}	H05H1/34	H05H1/34		195
H05H1/3436	12	{Hollow cathodes with internal coolant flow}	H05H1/34	H05H1/34		288
H05H1/3442	12	{Cathodes with inserted tip}	H05H1/34	H05H1/34		296
H05H1/3447	12	{Rod-like cathodes}	H05H1/34	H05H1/34		39
H05H1/3452	12	{Supplementary electrodes between cathode and anode, e.g. cascade}	H05H1/34	H05H1/34		150
H05H1/3457	12	{Nozzle protection devices}	H05H1/34	H05H1/34		276
H05H1/3463	12	{Oblique nozzles}	H05H1/34	H05H1/34		97
H05H1/3468	12	{Vortex generators}	H05H1/34	H05H1/34		301
H05H1/3473	12	{Safety means}	H05H1/34	H05H1/34		128
H05H1/3478	12	{Geometrical details}	H05H1/34	H05H1/34		508
H05H1/3484	12	{Convergent-divergent nozzles}	H05H1/34	H05H1/34		217
H05H1/3489	12	{Means for contact starting}	H05H1/34	H05H1/34		135
H05H1/3494	12	{Means for controlling discharge parameters}	H05H1/34	H05H1/34		188
H05H1/36	12	Circuit arrangements (H05H1/38, H05H1/40 take precedence)	H05H1/36	H05H1/36		525
H05H1/38	12	Guiding or centering of electrodes	H05H1/38	H05H1/38		104
H05H1/40	12	using applied magnetic fields, e.g. for focusing or rotating the arc {(cf. B23K9/08, B23K9/073)}	H05H1/40	H05H1/40		234
H05H1/42	11	with provisions for introducing materials into the plasma, e.g. powder or liquid {(arc stabilising or constricting arrangements H05H1/3405; coaxial protecting fluids H05H1/341)}	H05H1/42	H05H1/42		803
H05H1/44	11	using more than one torch	H05H1/44	H05H1/44		241
H05H1/46	9	using applied electromagnetic fields, e.g. high frequency or microwave energy (H05H1/26 takes precedence)	H05H1/46	H05H1/46		5016
H05H1/461	10	{Microwave discharges}	H05H1/46	H05H1/46		237
H05H1/4615	11	{using surface waves}	H05H1/46	H05H1/46		42
H05H1/4622	11	{using waveguides}	H05H1/46	H05H1/46		298
H05H1/463	11	{using antennas or applicators}	H05H1/46	H05H1/46		251
H05H1/4637	11	{using cables}	H05H1/46	H05H1/46		21
H05H1/4645	10	{Radiofrequency discharges}	H05H1/46	H05H1/46		346
H05H1/4652	11	{using inductive coupling means, e.g. coils}	H05H1/46	H05H1/46		763
H05H1/466	11	{using capacitive coupling means, e.g. electrodes}	H05H1/46	H05H1/46		511
H05H1/4697	9	{using glow discharges}	H05H1/24	H05H1/46		194
H05H1/47	9	{using corona discharges}	H05H1/24	H05H1/47		251
H05H1/471	10	{Pointed electrodes}	H05H1/24	H05H1/471		148
H05H1/473	10	{Cylindrical electrodes, e.g. rotary drums}	H05H1/24	H05H1/473		87
H05H1/475	10	{Filamentary electrodes}	H05H1/24	H05H1/475		38
H05H1/477	10	{Segmented electrodes}	H05H1/24	H05H1/477		29
H05H1/48	9	using an arc (H05H1/26 takes precedence)	H05H1/48	H05H1/48		769
H05H1/481	10	{Hollow cathodes}	H05H1/48	H05H1/48		45
H05H1/482	10	{Arrangements to provide gliding arc discharges}	H05H1/48	H05H1/48		57
H05H1/484	10	{Arrangements to provide plasma curtains or plasma showers}	H05H1/48	H05H1/48		11
H05H1/486	10	{Arrangements to provide capillary discharges}	H05H1/48	H05H1/48		24
H05H1/488	10	{Liquid electrodes}	H05H1/48	H05H1/48		15
H05H1/50	10	and using applied magnetic fields, e.g. for focusing or rotating the arc	H05H1/50	H05H1/50		209
H05H1/52	9	using exploding wires or spark gaps (H05H1/26 takes precedence)	H05H1/52	H05H1/52		292
H05H1/54	8	Plasma accelerators	H05H1/54	H05H1/54		475
H05H3/00	7	Production or acceleration of neutral particle beams, e.g. molecular or atomic beams	H05H3/00	H05H3/00		125
H05H3/02	8	Molecular or atomic-beam generation, e.g. resonant beam generation	H05H3/02	H05H3/02		318
H05H3/04	8	Acceleration by electromagnetic wave pressure	H05H3/04	H05H3/04		164
H05H3/06	8	Generating neutron beams (targets for producing nuclear reactions H05H6/00; neutron sources G21G4/02)	H05H3/06	H05H3/06		791
H05H5/00	7	Direct voltage accelerators; Accelerators using single pulses (H05H3/06 takes precedence)	H05H5/00	H05H5/00		115
H05H5/02	8	Details (targets for producing nuclear reactions H05H6/00)	H05H5/02	H05H5/02		122
H05H5/03	9	Accelerating tubes	H05H5/03	H05H5/03		39
H05H5/04	8	energised by electrostatic generators	H05H5/04	H05H5/04		71
H05H5/042	9	{of the van de Graaf type}	H05H5/04	H05H5/04		
H05H5/045	9	{High voltage cascades, e.g. Greinacher cascade}	H05H5/04	H05H5/04		16
H05H5/047	9	{Pulsed generators}	H05H5/04	H05H5/04		9
H05H5/06	8	Multistage accelerators	H05H5/06	H05H5/06		52
H05H5/063	9	{Tandems}	H05H5/06	H05H5/06		18
H05H5/066	9	{Onion-like structures}	H05H5/06	H05H5/06		7
H05H5/08	8	Particle accelerators using step-up transformers, e.g. resonance transformers	H05H5/08	H05H5/08		8
H05H6/00	7	Targets for producing nuclear reactions (supports for targets or objects to be irradiated G21K5/08{; preparation of tritium C01B4/00; targets, e.g. pellets for fusion reactions by laser or charged particles beam injection H05H1/22})	H05H6/00	H05H6/00		744
H05H2006/002	8	{Windows}	H05H6/00	H05H6/00		16
H05H6/005	8	{Polarised targets (polarising devices, e.g. for obtaining a polarised ion beam G21K1/16)}	H05H6/00	H05H6/00		9
H05H2006/007	8	{Radiation protection arrangements, e.g. screens}	H05H6/00	H05H6/00		19
H05H7/00	7	Details of devices of the types covered by groups H05H9/00, H05H11/00, H05H13/00	H05H7/00	H05H7/00		720
H05H7/001	8	{Arrangements for beam delivery or irradiation (irradiation systems per seG21K5/00)}	H05H7/00	H05H7/00		410
H05H2007/002	9	{for modifying beam trajectory, e.g. gantries}	H05H7/00	H05H7/00		110
H05H2007/004	9	{for modifying beam energy, e.g. spread out Bragg peak devices}	H05H7/00	H05H7/00		75
H05H2007/005	9	{for modifying beam emittance, e.g. stochastic cooling devices, stripper foils}	H05H7/00	H05H7/00		43
H05H2007/007	9	{for focusing the beam to irradiation target}	H05H7/00	H05H7/00		61
H05H2007/008	9	{for measuring beam parameters}	H05H7/00	H05H7/00		74
H05H7/02	8	Circuits or systems for supplying or feeding radio-frequency energy	H05H7/02	H05H7/02		532
H05H2007/022	9	{Pulsed systems}	H05H7/02	H05H7/02		73
H05H2007/025	9	{Radiofrequency systems}	H05H7/02	H05H7/02		176
H05H2007/027	9	{Microwave systems}	H05H7/02	H05H7/02		70
H05H7/04	8	Magnet systems {, e.g. undulators, wigglers (free-electron laser H01S3/0903)}; Energisation thereof	H05H7/04	H05H7/04		870
H05H2007/041	9	{for beam bunching, e.g. undulators}	H05H7/04	H05H7/04		67
H05H2007/043	9	{for beam focusing}	H05H7/04	H05H7/04		93
H05H2007/045	9	{for beam bending}	H05H7/04	H05H7/04		57
H05H2007/046	9	{for beam deflection}	H05H7/04	H05H7/04		119
H05H2007/048	9	{for modifying beam trajectory, e.g. gantry systems}	H05H7/04	H05H7/04		51
H05H7/06	8	Two-beam arrangements; Multi-beam arrangements {storage rings}; Electron rings	H05H7/06	H05H7/06		137
H05H2007/065	9	{Multi-beam merging, e.g. funneling}	H05H7/06	H05H7/06		6
H05H7/08	8	Arrangements for injecting particles into orbits	H05H7/08	H05H7/08		260
H05H2007/081	9	{Sources}	H05H7/08	H05H7/08		15
H05H2007/082	10	{Ion sources, e.g. ECR, duoplasmatron, PIG, laser sources}	H05H7/08	H05H7/08		98
H05H2007/084	10	{Electron sources}	H05H7/08	H05H7/08		42
H05H2007/085	9	{by electrostatic means}	H05H7/08	H05H7/08		8
H05H2007/087	9	{by magnetic means}	H05H7/08	H05H7/08		24
H05H2007/088	9	{by mechanical means, e.g. stripping foils}	H05H7/08	H05H7/08		11
H05H7/10	8	Arrangements for ejecting particles from orbits	H05H7/10	H05H7/10		223
H05H7/12	8	Arrangements for varying final energy of beam	H05H7/12	H05H7/12		125
H05H2007/122	9	{by electromagnetic means, e.g. RF cavities}	H05H7/12	H05H7/12		35
H05H2007/125	9	{by mechanical means, e.g. stripping foils}	H05H7/12	H05H7/12		26
H05H2007/127	9	{by emittance variation, e.g. stochastic cooling}	H05H7/12	H05H7/12		3
H05H7/14	8	Vacuum chambers (H05H5/03 takes precedence)	H05H7/14	H05H7/14		137
H05H7/16	9	of the waveguide type	H05H7/16	H05H7/16		33
H05H7/18	9	Cavities; Resonators {(travelling-wave tubes H01J23/18; hyperfrequency cavities in general H01P7/04, H01P7/06)}	H05H7/18	H05H7/18		361
H05H7/20	10	with superconductive walls	H05H7/20	H05H7/20		171
H05H7/22	8	Details of linear accelerators, e.g. drift tubes (H05H7/02&#160;-&#160;H05H7/20 take precedence)	H05H7/22	H05H7/22		450
H05H2007/222	9	{drift tubes}	H05H7/22	H05H7/22		44
H05H2007/225	9	{coupled cavities arrangements}	H05H7/22	H05H7/22		51
H05H2007/227	9	{power coupling, e.g. coupling loops}	H05H7/22	H05H7/22		59
H05H9/00	7	Linear accelerators	H05H9/00	H05H9/00		537
H05H9/005	8	{Dielectric wall accelerators}	H05H9/00	H05H9/00		20
H05H9/02	8	Travelling-wave linear accelerators {(travelling-wave tubes H01J25/34)}	H05H9/02	H05H9/02		150
H05H9/04	8	Standing-wave linear accelerators	H05H9/04	H05H9/04		165
H05H9/041	9	{Hadron LINACS}	H05H9/04	H05H9/04		23
H05H9/042	10	{Drift tube LINACS}	H05H9/04	H05H9/04		32
H05H9/044	10	{Coupling cavity LINACS, e.g. side coupled}	H05H9/04	H05H9/04		25
H05H9/045	10	{Radio frequency quadrupoles}	H05H9/04	H05H9/04		29
H05H9/047	10	{Hybrid systems}	H05H9/04	H05H9/04		5
H05H9/048	9	{Lepton LINACS}	H05H9/04	H05H9/04		81
H05H11/00	7	Magnetic induction accelerators, e.g. betatrons	H05H11/00	H05H11/00		193
H05H11/02	8	Air-cored betatrons	H05H11/02	H05H11/02		29
H05H11/04	8	Biased betatrons	H05H11/04	H05H11/04		35
H05H13/00	7	Magnetic resonance accelerators; Cyclotrons {(strophotrons, turbine tubes H01J25/62)}	H05H13/00	H05H13/00		311
H05H13/005	8	{Cyclotrons}	H05H13/00	H05H13/00		514
H05H13/02	8	Synchrocyclotrons, i.e. frequency modulated cyclotrons	H05H13/02	H05H13/02		132
H05H13/04	8	Synchrotrons	H05H13/04	H05H13/04		367
H05H13/06	8	Air-cored magnetic resonance accelerators	H05H13/06	H05H13/06		4
H05H13/08	8	Alternating-gradient magnetic resonance accelerators	H05H13/08	H05H13/08		13
H05H13/085	9	{Fixed-field alternating gradient accelerators [FFAG]}	H05H13/08	H05H13/08		6
H05H13/10	8	Accelerators comprising one or more linear accelerating sections and bending magnets or the like to return the charged particles in a trajectory parallel to the first accelerating section, e.g. microtrons {or rhodotrons}	H05H13/10	H05H13/10		56
H05H15/00	7	Methods or devices for acceleration of charged particles not otherwise provided for {, e.g. wakefield accelerators}	H05H15/00	H05H15/00		276
H05H2240/00	7	Testing	CPCONLY	H05H2240/00		26
H05H2240/10	8	at atmospheric pressure	CPCONLY	H05H2240/10		180
H05H2240/20	8	Non-thermal plasma	CPCONLY	H05H2240/20		170
H05H2242/00	7	Auxiliary systems	CPCONLY	H05H2242/00		61
H05H2242/10	8	Cooling arrangements	CPCONLY	H05H2242/10		153
H05H2242/20	8	Power circuits	CPCONLY	H05H2242/20		322
H05H2242/22	9	DC, AC or pulsed generators	CPCONLY	H05H2242/22		156
H05H2242/24	9	Radiofrequency or microwave generators	CPCONLY	H05H2242/24		66
H05H2242/26	9	Matching networks	CPCONLY	H05H2242/26		186
H05H2245/00	7	Applications of plasma devices	CPCONLY	H05H2245/00		34
H05H2245/10	8	Treatment of gases	CPCONLY	H05H2245/10		84
H05H2245/15	9	Ambient air; Ozonisers	CPCONLY	H05H2245/15		282
H05H2245/17	9	Exhaust gases	CPCONLY	H05H2245/17		229
H05H2245/20	8	Treatment of liquids	CPCONLY	H05H2245/20		62
H05H2245/30	8	Medical applications	CPCONLY	H05H2245/30		107
H05H2245/32	9	Surgery, e.g. scalpels, blades or bistoury; Treatments inside the body	CPCONLY	H05H2245/32		92
H05H2245/34	9	Skin treatments, e.g. disinfection or wound treatment	CPCONLY	H05H2245/34		249
H05H2245/36	9	Sterilisation of objects, liquids, volumes or surfaces	CPCONLY	H05H2245/36		305
H05H2245/40	8	Surface treatments	CPCONLY	H05H2245/40		272
H05H2245/42	9	Coating or etching of large items	CPCONLY	H05H2245/42		50
H05H2245/50	8	Production of nanostructures	CPCONLY	H05H2245/50		43
H05H2245/60	8	Portable devices	CPCONLY	H05H2245/60		51
H05H2245/70	8	Automotive applications, e.g. engines	CPCONLY	H05H2245/70		6
H05H2245/80	8	Burners or furnaces for heat generation, for fuel combustion or for incineration of wastes	CPCONLY	H05H2245/80		25
H05H2277/00	7	Applications of particle accelerators	CPCONLY	H05H2277/00		15
H05H2277/10	8	Medical devices	CPCONLY	H05H2277/10		209
H05H2277/11	9	Radiotherapy	CPCONLY	H05H2277/11		249
H05H2277/113	10	Diagnostic systems	CPCONLY	H05H2277/113		17
H05H2277/116	10	Isotope production	CPCONLY	H05H2277/116		45
H05H2277/12	8	Ion implantation	CPCONLY	H05H2277/12		24
H05H2277/13	8	Nuclear physics, e.g. spallation sources, accelerator driven systems, search or generation of exotic elements	CPCONLY	H05H2277/13		27
H05H2277/14	8	Portable devices	CPCONLY	H05H2277/14		18
H05H2277/1405	9	Detection systems, e.g. for safety	CPCONLY	H05H2277/1405		8
