Integrated into the operation of the 2XIIB controlled fusion experiment is a 600-A, 20-keV neutral injection system: the highest neutral-beam current capacity of any existing fusion machine. This paper outlines the requirements of the injection system and the design features to which they led. Both mechanical and electrical aspects are discussed. Also included is a brief description of some operational aspects of the system and some of the things we have learned along the way, as well as a short history of the most significant developments. (auth
Neutral beam injection heating system is one of the main heating methods to improve the operating pa...
At the Lawrence Livermore and Berkeley Laboratories two major neutral beam system designs were devel...
DIII-D has four neutral beamlines (NB). Each of these beamlines has two ion sources, each of which i...
From topical meeting on technology of controlled nuclear fusion; San Diego, California, USA (16 Apr ...
The Tokamak Fusion Test Reactor will be installed at the Princeton Plasma Physics Laboratory facilit...
The national plan is presented for developing advanced injection systems for use on upgrades of exis...
Abstract: This paper describes the configuration and commissioning of HL-1M neutral beam injection s...
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...
International audienceAchievement of an economic fusion reactor imposes a high level of unprecedente...
The Lawrence Berkeley and Livermore Laboratories Neutral Beam Development Group's work proceeds alon...
For a fusion reaction to be feasible, it is necessary to heat plasmas to a very high temperature. On...
Plasma heating by injection of high energy neutrals is one of the experiments to be carried out on P...
As increasing numbers of neutral beams are added to fusion machines, their operation can consume a s...
The 2XIIB CTR facility at LLL is described with emphasis on the engineering aspects of recent modifi...
Neutral beam injection heating system is one of the main heating methods to improve the operating pa...
At the Lawrence Livermore and Berkeley Laboratories two major neutral beam system designs were devel...
DIII-D has four neutral beamlines (NB). Each of these beamlines has two ion sources, each of which i...
From topical meeting on technology of controlled nuclear fusion; San Diego, California, USA (16 Apr ...
The Tokamak Fusion Test Reactor will be installed at the Princeton Plasma Physics Laboratory facilit...
The national plan is presented for developing advanced injection systems for use on upgrades of exis...
Abstract: This paper describes the configuration and commissioning of HL-1M neutral beam injection s...
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...
International audienceAchievement of an economic fusion reactor imposes a high level of unprecedente...
The Lawrence Berkeley and Livermore Laboratories Neutral Beam Development Group's work proceeds alon...
For a fusion reaction to be feasible, it is necessary to heat plasmas to a very high temperature. On...
Plasma heating by injection of high energy neutrals is one of the experiments to be carried out on P...
As increasing numbers of neutral beams are added to fusion machines, their operation can consume a s...
The 2XIIB CTR facility at LLL is described with emphasis on the engineering aspects of recent modifi...
Neutral beam injection heating system is one of the main heating methods to improve the operating pa...
At the Lawrence Livermore and Berkeley Laboratories two major neutral beam system designs were devel...
DIII-D has four neutral beamlines (NB). Each of these beamlines has two ion sources, each of which i...