Add to ORKGAn important demonstration of negative ion technology is proposed for FY92 in the MFTF-..cap alpha..+T, an upgrade of the Mirror Fusion Test Facility at the Lawrence Livermore National Laboratory. This facility calls for 200-keV negative ions to form neutral beams that generate sloshing ions in the reactor end plugs. Three different beam lines are considered for this application. Their advantages and disadvantages are discussed
The long-term objective of the BNL Neutral Beam Development Group is to design and test a neutral be...
The status and near-term goals of the LBL/LLL neutral-beam-development program are described. The em...
We have assessed the feasibility of producing heavy negative ion beams as drivers for an inertial co...
The Lawrence Berkeley and Livermore Laboratories Neutral Beam Development Group's work proceeds alon...
The development of negative-ion-based (H/sup -/, D/sup -/) neutral beams for TFTR and MFTF is discus...
From topical meeting on technology of controlled nuclear fusion; San Diego, California, USA (16 Apr ...
Neutral beams, which effectively heat and fuel mirror reactors, provide high-energy particles that r...
The neutral-beam research and development effort at LLL has been concerned mainly with design, const...
Energetic neutral beams are used for heating and diagnostics in present magnetic fusion experiments....
The Brookhaven High Energy Neutral Beam Development Group is developing injector systems, particular...
A neutral beam injector system which produces 5 MW of 475 keV D/sup 0/ neutrals continuously on targ...
The Mirror Fusion Test Facility (MFTF) may be upgraded by extending the time of plasma sustenance in...
The MFTF/TFTR injector system is studied. The LLL double charge exchange system is also studied. The...
International audienceIn parallel to the developments dedicated to the ITER neutral beam system, CEA...
The optimum plasma for the tandem Mirror Fusion Test Facility (MFTF-B) at Lawrence Livermore Nationa...
The long-term objective of the BNL Neutral Beam Development Group is to design and test a neutral be...
The status and near-term goals of the LBL/LLL neutral-beam-development program are described. The em...
We have assessed the feasibility of producing heavy negative ion beams as drivers for an inertial co...
The Lawrence Berkeley and Livermore Laboratories Neutral Beam Development Group's work proceeds alon...
The development of negative-ion-based (H/sup -/, D/sup -/) neutral beams for TFTR and MFTF is discus...
From topical meeting on technology of controlled nuclear fusion; San Diego, California, USA (16 Apr ...
Neutral beams, which effectively heat and fuel mirror reactors, provide high-energy particles that r...
The neutral-beam research and development effort at LLL has been concerned mainly with design, const...
Energetic neutral beams are used for heating and diagnostics in present magnetic fusion experiments....
The Brookhaven High Energy Neutral Beam Development Group is developing injector systems, particular...
A neutral beam injector system which produces 5 MW of 475 keV D/sup 0/ neutrals continuously on targ...
The Mirror Fusion Test Facility (MFTF) may be upgraded by extending the time of plasma sustenance in...
The MFTF/TFTR injector system is studied. The LLL double charge exchange system is also studied. The...
International audienceIn parallel to the developments dedicated to the ITER neutral beam system, CEA...
The optimum plasma for the tandem Mirror Fusion Test Facility (MFTF-B) at Lawrence Livermore Nationa...
The long-term objective of the BNL Neutral Beam Development Group is to design and test a neutral be...
The status and near-term goals of the LBL/LLL neutral-beam-development program are described. The em...
We have assessed the feasibility of producing heavy negative ion beams as drivers for an inertial co...