Add to ORKGWe have attempted to make detailed designs of several neutral beam systems which would be applicable to a large machine, e.g., an ITR (Ignition Test Reactor), EPR (Experimental Power Reactor), or reactor. Detailed studies of beam transport to the reactor and neutron transport from the reactor have been made. We have also considered constraints imposed by the neutron radiation environment in the injectors, and the resulting shielding, radiation-damage, and maintenance problems. The effects of neutron heat loads on cryopanels and ZrAl getter panels have been considered. Design studies of power supplies, vacuum systems, bending magnets, and injector layouts are in progress and will be discussed
The next generation of CTR experiments, such as the Tokamak Fusion Test Reactor (TFTR), will require...
The national plan is presented for developing advanced injection systems for use on upgrades of exis...
Most of the components of the Neutral Beam Lines of the Tokamak Fusion Test Reactor (TFTR) will be e...
The Tokamak Fusion Test Reactor will be installed at the Princeton Plasma Physics Laboratory facilit...
The present ITER NB system includes two design features: short beamline design and vacuum insulated ...
The ITER neutral beam (NB) injectors are the first injectors that will have to operate under conditi...
From topical meeting on technology of controlled nuclear fusion; San Diego, California, USA (16 Apr ...
Large, ignition tokamak reactors (ITR, EPR, and beyond will require supplemental heating to achieve ...
The neutral-beam injection requirements for heating and fueling the next generation of fusion reacto...
Because there is no limit to the energy or power that can be delivered by a neutral-beam injector, i...
The ITER [1] fusion device is expected to demonstrate the feasibility of magnetically confined deute...
The heating neutral beam (HNB) systems at ITER are designed to inject a total of 33 MW of either 1 M...
International audienceAchievement of an economic fusion reactor imposes a high level of unprecedente...
At the Lawrence Livermore and Berkeley Laboratories two major neutral beam system designs were devel...
The results of two-dimensional neutronics calculations aimed at identifying the nuclear responses th...
The next generation of CTR experiments, such as the Tokamak Fusion Test Reactor (TFTR), will require...
The national plan is presented for developing advanced injection systems for use on upgrades of exis...
Most of the components of the Neutral Beam Lines of the Tokamak Fusion Test Reactor (TFTR) will be e...
The Tokamak Fusion Test Reactor will be installed at the Princeton Plasma Physics Laboratory facilit...
The present ITER NB system includes two design features: short beamline design and vacuum insulated ...
The ITER neutral beam (NB) injectors are the first injectors that will have to operate under conditi...
From topical meeting on technology of controlled nuclear fusion; San Diego, California, USA (16 Apr ...
Large, ignition tokamak reactors (ITR, EPR, and beyond will require supplemental heating to achieve ...
The neutral-beam injection requirements for heating and fueling the next generation of fusion reacto...
Because there is no limit to the energy or power that can be delivered by a neutral-beam injector, i...
The ITER [1] fusion device is expected to demonstrate the feasibility of magnetically confined deute...
The heating neutral beam (HNB) systems at ITER are designed to inject a total of 33 MW of either 1 M...
International audienceAchievement of an economic fusion reactor imposes a high level of unprecedente...
At the Lawrence Livermore and Berkeley Laboratories two major neutral beam system designs were devel...
The results of two-dimensional neutronics calculations aimed at identifying the nuclear responses th...
The next generation of CTR experiments, such as the Tokamak Fusion Test Reactor (TFTR), will require...
The national plan is presented for developing advanced injection systems for use on upgrades of exis...
Most of the components of the Neutral Beam Lines of the Tokamak Fusion Test Reactor (TFTR) will be e...