| H | SK | ELECTRICITY |
| H05 | KL | ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR |
| H05H | UKL | PLASMA TECHNIQUE (ion-beam tubes H01J 27/00; magnetohydrodynamic generators H02K 44/08; producing X-rays involving plasma generation H05G 2/00); PRODUCTION OF ACCELERATED ELECTRICALLY- CHARGED PARTICLES OR OF NEUTRONS (obtaining neutrons from radioactive sources G21, e.g. G21B, G21C, G21G); PRODUCTION OR ACCELERATION OF NEUTRAL MOLECULAR OR ATOMIC BEAMS (atomic clocks G04F 5/14; devices using stimulated emission H01S; frequency regulation by comparison with a reference frequency determined by energy levels of molecules, atoms, or subatomic particles H03L 7/26) |
| H05H 1/00 | HGR | Generating plasma; Handling plasma (application of plasma technique in thermonuclear fusion reactors G21B 1/00) [1, 2006.01] |
| H05H 1/02 | UGR1 | | . | Arrangements for confining plasma by electric or magnetic fields; Arrangements for heating plasma (electron optics H01J) [1, 2006.01] |
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| H05H 1/03 | UGR2 | | . . | using electrostatic fields [3, 2006.01] |
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| H05H 1/04 | UGR2 | | . . | using magnetic fields substantially generated by the discharge in the plasma [1, 2006.01] |
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| H05H 1/06 | UGR3 | | . . . | Longitudinal pinch devices [1, 2006.01] |
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| H05H 1/08 | UGR3 | | . . . | Theta pinch devices [1, 2006.01] |
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| H05H 1/10 | UGR2 | | . . | using applied magnetic fields only [1, 2006.01] |
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| H05H 1/11 | UGR3 | | . . . | using cusp configuration (H05H 1/14 takes precedence) [3, 2006.01] |
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| H05H 1/12 | UGR3 | | . . . | wherein the containment vessel forms a closed loop, e.g. stellarator [1, 2006.01] |
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| H05H 1/14 | UGR3 | | . . . | wherein the containment vessel is straight and has magnetic mirrors [1, 2006.01] |
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| H05H 1/16 | UGR2 | | . . | using applied electric and magnetic fields [1, 2006.01] |
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| H05H 1/18 | UGR3 | | . . . | wherein the fields oscillate at a very high frequency, e.g. in the microwave range [1, 2006.01] |
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| H05H 1/20 | UGR2 | | . . | Ohmic heating [1, 2006.01] |
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| H05H 1/22 | UGR2 | | . . | for injection heating [1, 2006.01] |
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| H05H 1/24 | UGR1 | | . | Generating plasma [2, 2006.01] |
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| H05H 1/26 | UGR2 | | . . | Plasma torches [2, 2006.01] |
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| H05H 1/28 | UGR3 | | . . . | Cooling arrangements [3, 2006.01] |
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| H05H 1/30 | UGR3 | | . . . | using applied electromagnetic fields, e.g. high-frequency or microwave energy (H05H 1/28 takes precedence) [3, 2006.01] |
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| H05H 1/32 | UGR3 | | . . . | using an arc (H05H 1/28 takes precedence) [3, 2006.01] |
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| H05H 1/34 | UGR4 | | . . . . | Details, e.g. electrodes, nozzles [3, 2006.01] |
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| H05H 1/36 | UGR5 | |
| H05H 1/38 | UGR5 | | . . . . . | Guiding or centering of electrodes [3, 2006.01] |
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| H05H 1/40 | UGR5 | | . . . . . | using applied magnetic fields, e.g. for focusing or rotating the arc [3, 2006.01] |
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| H05H 1/42 | UGR4 | | . . . . | with provisions for introducing materials into the plasma, e.g. powder, liquid (electrostatic spraying, spraying apparatus with means for charging the spray electrically B05B 5/00) [3, 2006.01] |
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| H05H 1/44 | UGR4 | | . . . . | using more than one torch [3, 2006.01] |
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| H05H 1/46 | UGR2 | | . . | using applied electromagnetic fields, e.g. high frequency or microwave energy (H05H 1/26 takes precedence) [3, 2006.01] |
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| H05H 1/48 | UGR2 | | . . | using an arc (H05H 1/26 takes precedence) [3, 2006.01] |
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| H05H 1/50 | UGR3 | | . . . | and using applied magnetic fields, e.g. for focusing or rotating the arc [3, 2006.01] |
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| H05H 1/52 | UGR2 | | . . | using exploding wires or spark gaps (H05H 1/26 takes precedence; spark gaps in general H01T) [3, 2006.01] |
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| H05H 1/54 | UGR1 | | . | Plasma accelerators [3, 2006.01] |
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| H05H 3/00 | HGR | Production or acceleration of neutral particle beams, e.g. molecular or atomic beams [3, 2006.01] |
| H05H 3/02 | UGR1 | | . | Molecular or atomic-beam generation, e.g. resonant beam generation (gas masers H01S 1/06) [3, 2006.01] |
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| H05H 3/04 | UGR1 | | . | Acceleration by electromagnetic wave pressure [3, 2006.01] |
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| H05H 3/06 | UGR1 | | . | Generating neutron beams (targets for producing nuclear reactions H05H 6/00; neutron sources G21G 4/02) [5, 2006.01] |
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| H05H 5/00 | HGR | Direct voltage accelerators; Accelerators using single pulses (H05H 3/06 takes precedence) [1, 5, 2006.01] |
| H05H 5/02 | UGR1 | | . | Details (targets for producing nuclear reactions H05H 6/00) [1, 3, 2006.01] |
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| H05H 5/03 | UGR2 | | . . | Accelerating tubes (vessels or containers of electric discharge tubes with improved potential distribution over surface of vessel H01J 5/06; shields of X-ray tubes associated with vessels or containers H01J 35/16) [4, 2006.01] |
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| H05H 5/04 | UGR1 | | . | energised by electrostatic generators, e.g. by van de Graaff generator [1, 4, 2006.01] |
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| H05H 5/06 | UGR1 | | . | Tandem accelerators; Multi-stage accelerators [1, 2006.01] |
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| H05H 5/08 | UGR1 | | . | Particle accelerators using step-up transformers, e.g. resonance transformers [4, 2006.01] |
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| H05H 6/00 | HGR | Targets for producing nuclear reactions (supports for targets or objects to be irradiated G21K 5/08) [3, 2006.01] |
| H05H 7/00 | HGR | Details of devices of the types covered by groups H05H 9/00-H05H 13/00 (targets for producing nuclear reactions H05H 6/00) [1, 3, 2006.01] |
| H05H 7/02 | UGR1 | | . | Circuits or systems for supplying or feeding radio-frequency energy (radio-frequency generators H03B) [1, 2006.01] |
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| H05H 7/04 | UGR1 | | . | Magnet systems; Energisation thereof [1, 2006.01] |
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| H05H 7/06 | UGR1 | | . | Two-beam arrangements; Multi-beam arrangements [1, 2006.01] |
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| H05H 7/08 | UGR1 | | . | Arrangements for injecting particles into orbits [1, 2006.01] |
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| H05H 7/10 | UGR1 | | . | Arrangements for ejecting particles from orbits [1, 2006.01] |
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| H05H 7/12 | UGR1 | | . | Arrangements for varying final energy of beam [1, 2006.01] |
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| H05H 7/14 | UGR1 | | . | Vacuum chambers (H05H 5/03 takes precedence) [4, 2006.01] |
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| H05H 7/16 | UGR2 | | . . | of the waveguide type [4, 2006.01] |
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| H05H 7/18 | UGR2 | | . . | Cavities; Resonators [4, 2006.01] |
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| H05H 7/20 | UGR3 | | . . . | with superconductive walls [4, 2006.01] |
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| H05H 7/22 | UGR1 | | . | Details of linear accelerators, e.g. drift tubes (H05H 7/02-H05H 7/20 take precedence) [4, 2006.01] |
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| H05H 9/00 | HGR | Linear accelerators (H05H 11/00 takes precedence) [1, 2006.01] |
| H05H 9/02 | UGR1 | | . | Travelling-wave linear accelerators [1, 2006.01] |
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| H05H 9/04 | UGR1 | | . | Standing-wave linear accelerators [1, 2006.01] |
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| H05H 11/00 | HGR | Magnetic induction accelerators, e.g. betatrons [1, 2006.01] |
| H05H 11/02 | UGR1 | | . | Air-cored betatrons [1, 2006.01] |
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| H05H 11/04 | UGR1 | | . | Biased betatrons [1, 2006.01] |
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| H05H 13/00 | HGR | Magnetic resonance accelerators; Cyclotrons [1, 2006.01] |
| H05H 13/02 | UGR1 | | . | Synchrocyclotrons, i.e. frequency-modulated cyclotrons [1, 2006.01] |
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| H05H 13/04 | UGR1 | | . | Synchrotrons [1, 2006.01] |
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| H05H 13/06 | UGR1 | | . | Air-cored magnetic resonance accelerators [1, 2006.01] |
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| H05H 13/08 | UGR1 | | . | Alternating-gradient magnetic resonance accelerators [1, 2006.01] |
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| H05H 13/10 | UGR1 | | . | 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 [4, 2006.01] |
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| H05H 15/00 | HGR | Methods or devices for acceleration of charged particles not otherwise provided for [4, 2006.01] |