FRC edge physics using NIMROD
November 2012 | A. Necas | APS-DPP | Poster
We have studied issues related to edge physics of the HPF regime FRC [1] ” using the NIMROD extended MHD code [2].
November 2012 | A. Necas | APS-DPP | Poster
We have studied issues related to edge physics of the HPF regime FRC [1] ” using the NIMROD extended MHD code [2].
September 2012 | M. Tuszewski | US-Japan CT Workshop | Presentation
Most plasma gun potential is realized. Good communication with FRC. Plasma gun provides E, Control and line-tying. Improved FRC Stability (rotational modes)
November 2011 | X. Sun | APS-DPP | Poster
Edge biasing has long been used in various fusion devices to actively control the plasma potential profile in order to suppress radial transport by decorrelating density and potential fluctuations through flow shear.
November 2011 | M. Thompson | APS-DPP | Poster
In any magnetic plasma confinement device, it is advantageous to limit hot-ion loss through charge-exchange with cold neutral gas by minimizing the gas density near the plasma.
November 2010 | M. Wyman | APS-DPP | Poster
In C-2, two high-beta plasmas are merged to produce a field-reversed configuration (FRC) plasma.