Oct 2010 | Papers, Diagnostics, Experiment, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Plasma Profiles, Plasma Research, Research Library
October 2010 | O. Gornostaeva | Review of Scientific Instruments | Paper
A six-channel two-color interferometer has been developed for plasma electron density measurements in the C-2 field reversed configuration experiment.
Oct 2010 | Papers, Diagnostics, Experiment, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Plasma Research, Research Library
October 2010 | H. Gota |Review of Scientific Instruments | Paper
A two-chord �IR�3.39 �m He–Ne laser interferometer system was developed for a flux-coil-generated field-reversed configuration to estimate the electron density and the total temperature of the field-reversed configuration �FRC� plasma.
Oct 2010 | Papers, Diagnostics, Experiment, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Plasma Research, Research Library
October 2010 | F. Glass | Review of Scientific Instruments | Paper
A Thomson scattering diagnostic has been developed for the C-2 field-reversed configuration device. Based on a multipulse ruby laser, the system measures the electron temperature at nine spatial points.
Jul 2010 | Papers, Featured Publications, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Overview, Performance, Plasma Research, Research Library
July 2010 | M. Binderbauer | Physical Review Letters Paper | Paper
A hot stable field-reversed configuration (FRC) has been produced in the C-2 experiment by colliding and merging two high- ß plasmoids preformed by the dynamic version of field-reversed -pinch technology.
Jul 2010 | Posters, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Overview, Performance, Plasma Research, Research Library
July 2010 | M. Tuszewski | Open Systems | Presentation
The C-2 experiment aims at FRC sustainment.
Jul 2010 | Posters, Experiment, Fast Particles, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Plasma Research, Research Library
June 2010 | A. Smirnov | Open Systems | Presentation
Unlike tokamaks, where the neutral beam shine through is rarely an issue, open magnetic systems with neutral beam injection oftentimes suffer from incomplete beam capture, which necessitates the handling of the shine through power load and beam particle recycling.
