Add to ORKGA discussion is provided of possible neutral beam requirements and constraints for a TFTR upgrade. The time scale is the early 80s and beams of 250 keV D/sup 0/, probably using 65 ampere negative ion sources, existing power supplies and vacuum enclosures would be required. (MHR
The MFTF/TFTR injector system is studied. The LLL double charge exchange system is also studied. The...
The Mirror Fusion Test Facility (MFTF) may be upgraded by extending the time of plasma sustenance in...
This paper presents: (1) A brief review of existing neutral beam (NB) power supply technology for op...
The neutral-beam injection requirements for heating and fueling the next generation of fusion reacto...
The National Spherical Torus Experiment (NSTX) capability with a Neutral Beam Injector (NBI) capable...
The development of negative-ion-based (H/sup -/, D/sup -/) neutral beams for TFTR and MFTF is discus...
A conceptual design of a prototype beam line for the TFTR Neutral Beam System has been developed. Th...
The next generation of CTR experiments, such as the Tokamak Fusion Test Reactor (TFTR), will require...
The Lawrence Berkeley and Livermore Laboratories Neutral Beam Development Group's work proceeds alon...
The cryocondensation pumping system for the TFTR neutral beam injectors is described. Topics include...
The national plan is presented for developing advanced injection systems for use on upgrades of exis...
International audienceAchievement of an economic fusion reactor imposes a high level of unprecedente...
The development of controlled thermonuclear fusion has progressed to the stage where the present fac...
This paper contains viewgraphs on the use of neutral beam current drive in future tokamaks. Current ...
Most of the components of the Neutral Beam Lines of the Tokamak Fusion Test Reactor (TFTR) will be e...
The MFTF/TFTR injector system is studied. The LLL double charge exchange system is also studied. The...
The Mirror Fusion Test Facility (MFTF) may be upgraded by extending the time of plasma sustenance in...
This paper presents: (1) A brief review of existing neutral beam (NB) power supply technology for op...
The neutral-beam injection requirements for heating and fueling the next generation of fusion reacto...
The National Spherical Torus Experiment (NSTX) capability with a Neutral Beam Injector (NBI) capable...
The development of negative-ion-based (H/sup -/, D/sup -/) neutral beams for TFTR and MFTF is discus...
A conceptual design of a prototype beam line for the TFTR Neutral Beam System has been developed. Th...
The next generation of CTR experiments, such as the Tokamak Fusion Test Reactor (TFTR), will require...
The Lawrence Berkeley and Livermore Laboratories Neutral Beam Development Group's work proceeds alon...
The cryocondensation pumping system for the TFTR neutral beam injectors is described. Topics include...
The national plan is presented for developing advanced injection systems for use on upgrades of exis...
International audienceAchievement of an economic fusion reactor imposes a high level of unprecedente...
The development of controlled thermonuclear fusion has progressed to the stage where the present fac...
This paper contains viewgraphs on the use of neutral beam current drive in future tokamaks. Current ...
Most of the components of the Neutral Beam Lines of the Tokamak Fusion Test Reactor (TFTR) will be e...
The MFTF/TFTR injector system is studied. The LLL double charge exchange system is also studied. The...
The Mirror Fusion Test Facility (MFTF) may be upgraded by extending the time of plasma sustenance in...
This paper presents: (1) A brief review of existing neutral beam (NB) power supply technology for op...