Add to ORKGThe energetics of neutral beam formation from positive ion sources with beam direct conversion is presented. Two specific converters, the immersed grid and space charge controlled configurations, are described and their performance analyzed. The space charge controlled direct converter appears to be capable of high efficiency ion energy recovery at current density levels of interest in CTR applications. Experimental verification of the performance of this converter is underway. (auth
A neutral beamline employing direct energy recovery of unneutralized residual ions is provided which...
International audienceAchievement of an economic fusion reactor imposes a high level of unprecedente...
The effect of component performance perturbations on the efficiency of injection of neutral beams in...
Positive ions can make efficient neutral beams when direct energy conversion is incorporated at ener...
A schematic of a neutral beam injector is shown. Neutral gas is injected into the ion source, where ...
Practical systems for beam direct conversion are required to recover the energy from ion beams at hi...
Practical systems for beam direct conversion are re quired to recover the energy from ion beams at h...
The injection of fast neutral beams into plasmas is thought to be the most promising way for the fus...
The next fusion project DEMO, which will be the evolution of the experimental fusion reactor [Intern...
Large, ignition tokamak reactors (ITR, EPR, and beyond will require supplemental heating to achieve ...
The long-term objective of the BNL Neutral Beam Development Group is to design and test a neutral be...
From 5th symposium on engineering problems of fusion research; Princeton, New Jersey, USA (6 Nov 197...
The Lawrence Berkeley and Livermore Laboratories Neutral Beam Development Group's work proceeds alon...
Through the experience gained during the industrial development of low energy implanters, it is comm...
Performance comparisons of a DIII-D neutral beam ion source operated with two different schemes of s...
A neutral beamline employing direct energy recovery of unneutralized residual ions is provided which...
International audienceAchievement of an economic fusion reactor imposes a high level of unprecedente...
The effect of component performance perturbations on the efficiency of injection of neutral beams in...
Positive ions can make efficient neutral beams when direct energy conversion is incorporated at ener...
A schematic of a neutral beam injector is shown. Neutral gas is injected into the ion source, where ...
Practical systems for beam direct conversion are required to recover the energy from ion beams at hi...
Practical systems for beam direct conversion are re quired to recover the energy from ion beams at h...
The injection of fast neutral beams into plasmas is thought to be the most promising way for the fus...
The next fusion project DEMO, which will be the evolution of the experimental fusion reactor [Intern...
Large, ignition tokamak reactors (ITR, EPR, and beyond will require supplemental heating to achieve ...
The long-term objective of the BNL Neutral Beam Development Group is to design and test a neutral be...
From 5th symposium on engineering problems of fusion research; Princeton, New Jersey, USA (6 Nov 197...
The Lawrence Berkeley and Livermore Laboratories Neutral Beam Development Group's work proceeds alon...
Through the experience gained during the industrial development of low energy implanters, it is comm...
Performance comparisons of a DIII-D neutral beam ion source operated with two different schemes of s...
A neutral beamline employing direct energy recovery of unneutralized residual ions is provided which...
International audienceAchievement of an economic fusion reactor imposes a high level of unprecedente...
The effect of component performance perturbations on the efficiency of injection of neutral beams in...