H05H   1/00		ץ饺ޤץ饺ޤμ谷ǮͻϧؤΥץ饺޵Ѥαѣǣ£	Generating plasma; Handling plasma(application of plasma technique in thermonuclear fusion reactors <b>G21B1/00</b>)	5029
H05H   1/02		ųޤϼ뤤Ϥˤäƥץ饺ޤĤ뤿֡ץ饺ޤǮ뤿֡ŻҸأȣʡ	Arrangements for confining plasma by electric or magnetic fields; Arrangements for heating plasma(electron optics <b>H01J</b>)	950
H05H   1/03		ųѤΡΣ	using electrostatic fields	126
H05H   1/04		ץ饺Ťˤäȯ뼧Ѥ	using magnetic fields substantially generated by the discharge in the plasma	175
H05H   1/06		ľԥץ饺ȯ	Longitudinal pinch devices	118
H05H   1/08		ͶƳԥʦȥԥ˥ץ饺ȯ	Theta pinch devices	28
H05H   1/10		ΤߤѤ	using applied magnetic fields only	345
H05H   1/11		۰̤ѤΡʣȣȣͥˡΣ	using cusp configuration(<b>H05H1/14</b> takes precedence)	103
H05H   1/12		ĥ롼׷ƴѤΡ㡥ƥ쥤	wherein the containment vessel forms a closed loop, e.g. stellarator	1172
H05H   1/14		ƴ郎ľǼĤ	wherein the containment vessel is straight and has magnetic mirrors	134
H05H   1/16		ųȼѤ	using applied electric and magnetic fields	396
H05H   1/18		Ķȡ㡥ޥΰ衤οưųӼѤ	wherein the fields oscillate at a very high frequency, e.g. in the microwave range	538
H05H   1/20		Ǯ	Ohmic heating	64
H05H   1/22		ͲǮΤΤ	for injection heating	982
H05H   1/24		ץ饺ޤȯΣ	Generating plasma	13274
H05H   1/26		ץ饺ޥȡΣ	Plasma torches	2191
H05H   1/28		֡Σ	Cooling arrangements	1410
H05H   1/30		żѤΡ㡥Ȥޤϥޥȥͥ륮ʣȣȣͥˡΣ	using applied electromagnetic fields, e.g. high-frequency or microwave energy(<b>H05H1/28</b> takes precedence)	1641
H05H   1/32		ѤΡʣȣȣͥˡΣ	using an arc(<b>H05H1/28</b> takes precedence)	932
H05H   1/34		㡥ŶˡΥΣ	Details, e.g. electrodes, nozzles	5066
H05H   1/36		ϩ֡ʣȣȣȣȣͥˡΣ	Circuit arrangements(<b>H05H1/38</b>, <b>H05H1/40</b> take precedence)	989
H05H   1/38		Ŷˤΰޤϥ󥿥󥰡Σ	Guiding or centering of electrodes	202
H05H   1/40		ѤΡ㡥«ޤϲž뤿ΤΡΣ	using applied magnetic fields, e.g. for focusing or rotating the arc	366
H05H   1/42		ץ饺˺㡥ʴޤϱΡƳ뤿ͭΡΣ	with provisions for introducing materials into the plasma, e.g. powder or liquid	1454
H05H   1/44		ʣΥȡѤΡΣ	using more than one torch	296
H05H   1/46		żѤΡ㡥Ȥޤϥޥȥͥ륮ʣȣȣͥˡΣ	using applied electromagnetic fields, e.g. high frequency or microwave energy(<b>H05H1/26</b> takes precedence)	17749
H05H   1/48		ѤΡʣȣȣͥˡΣ	using an arc(<b>H05H1/26</b> takes precedence)	1621
H05H   1/50		ƼѤΡ㡥«ޤϲž뤿ΤΡΣ	and using applied magnetic fields, e.g. for focusing or rotating the arc	320
H05H   1/52		ץǥ󥰥磻ޤϥѡåפѤΡʣȣȣͥˡΣ	using exploding wires or spark gaps(<b>H05H1/26</b> takes precedence)	206
H05H   1/54		ץ饺ޤβ®Σ	Plasma accelerators	791
H05H   3/00		γҥӡࡤ㡥ʬҤޤϸҥӡȯޤϲ®Σ	Production or acceleration of neutral particle beams, e.g. molecular or atomic beams	423
H05H   3/02		ʬҥӡޤϸҥӡȯ㡥ӡȯΣ	Molecular or atomic-beam generation, e.g. resonant beam generation	698
H05H   3/04		żȰϤˤ®Σ	Acceleration by electromagnetic wave pressure	204
H05H   3/06		ҥӡȯΡʳȿ򵯤ΥåȣȣȣҸǣǣˡΣ	Generating neutron beams(targets for producing nuclear reactions <b>H05H6/00</b>; neutron sources <b>G21G4/02</b>)	1136
H05H   5/00		ľήŰ®ñѥ륹Ѥ®ʣȣȣͥˡΣ	Direct voltage accelerators; Accelerators using single pulses(<b>H05H3/06</b> takes precedence)	828
H05H   5/02		ʳȿ򵯤ΥåȣȣȣˡΣ	Details(targets for producing nuclear reactions <b>H05H6/00</b>)	849
H05H   5/03		®ɡΣ	Accelerating tubes	232
H05H   5/04		ȯŵˤꡤ㡥Хǥȯŵˤꡤ®ΡΣ	energised by electrostatic generators, e.g. by van de Graaff generator	118
H05H   5/06		ǥ෿®¿ʷ®	Tandem accelerators; Multi-stage accelerators	188
H05H   5/08		ȥ󥹡㡥ȥ󥹡ѤγҲ®Σ	Particle accelerators using step-up transformers, e.g. resonance transformers	36
H05H   6/00		ȿ򵯤Υåȡʾȼͤ륿åȤޤʪΤλٻǣˣˡΣ	Targets for producing nuclear reactions(supports for targets or objects to be irradiated <b>G21K5/08</b>)	1141
H05H   7/00		롼ףȣȣȣȣˤäޤ뷿֤κʳȿ򵯤ΥåȣȣȣˡΣ	Details of devices of the types covered by groups <b>H05H9/00 to H05H13/00</b> (targets for producing nuclear reactions <b>H05H6/00</b>)	3165
H05H   7/02		ȥͥ륮򶡵뤹뤿βϩΣ	Circuits or systems for supplying or feeding radio-frequency energy	1066
H05H   7/04		֤֡弧	Magnet systems; Energisation thereof	1936
H05H   7/06		ӡ֡¿ӡ	Two-beam arrangements; Multi-beam arrangements	168
H05H   7/08		γҤƻͤ뤿	Arrangements for injecting particles into orbits	920
H05H   7/10		γҤƻФ뤿	Arrangements for ejecting particles from orbits	453
H05H   7/12		ӡκǽͥ륮ѹ	Arrangements for varying final energy of beam	221
H05H   7/14		ʣȣȣͥˡΣ	Vacuum chambers(<b>H05H5/03</b> takes precedence)	607
H05H   7/16		ƳȴɷΤΡΣ	of the waveguide type	78
H05H   7/18		ƹΣ	Cavities; Resonators	705
H05H   7/20		ĶƳɤͭΡΣ	with superconductive walls	337
H05H   7/22		®κ㡥ɥեȴɡʣȣȣȣȣͥˡΣ	Details of linear accelerators, e.g. drift tubes(<b>H05H7/02 to H05H7/20</b>  take precedence)	730
H05H   9/00		®ʣȣȣͥ	Linear accelerators(<b>H05H11/00</b> takes precedence)	2021
H05H   9/02		ʹȷ®	Travelling-wave linear accelerators	215
H05H   9/04		ȷ®	Standing-wave linear accelerators	457
H05H  11/00		ͶƳ®㡥١ȥ	Magnetic induction accelerators, e.g. betatrons	481
H05H  11/02		١ȥ	Air-cored betatrons	36
H05H  11/04		᷿١ȥ	Biased betatrons	48
H05H  13/00		®ȥ	Magnetic resonance accelerators; Cyclotrons	1533
H05H  13/02		󥯥ȥ㡥ƣͥȥ	Synchrocyclotrons, i.e. frequency-modulated cyclotrons	202
H05H  13/04		󥯥ȥ	Synchrotrons	2766
H05H  13/06		®	Air-cored magnetic resonance accelerators	12
H05H  13/08		Ǽ®	Alternating-gradient magnetic resonance accelerators	30
H05H  13/10		γҤǽβ®ʿԤʵƻ᤹ΣĤޤʣ®ѶʼФޤΤΤ®㡥ޥȥΣ	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	126
H05H  15/00		γҤ¾ʬवʤ®ˡޤ֡Σ	Methods or devices for acceleration of charged particles not otherwise provided for	494
