May 2016 | S. Gupta | Physics of Plasmas | Paper
A significant improvement of field reversed configuration (FRC) lifetime and plasma confinement times in the C-2 plasma, called High Performance FRC regime, has been observed with neutral beam injection (NBI), improved edge stability, and better wall conditioning.
March 2016 | T. Tajima | AIP Conference Proceedings | Paper
Norman Rostoker pioneered research of (1) plasma-driven accelerators and (2) beam-driven fusion reactors. The collective acceleration, coined by Veksler, advocates to drive above-ionization plasma waves by an electron beam to accelerate ions. The research on this, among others, by the Rostoker group incubated the idea that eventually led to the birth of the laser wakefield acceleration (LWFA), by which a large and robust accelerating collective fields may be generated in plasma in which plasma remains robust and undisrupted.
January 2016 | D. Fulton | Physics of Plasmas | Paper
Gyrokinetic particle simulation of the field-reversed configuration (FRC) has been developed using the gyrokinetic toroidal code (GTC). The magnetohydrodynamic equilibrium is mapped from cylindrical coordinates to Boozer coordinates for the FRC core and scrape-off layer (SOL), respectively.
October 2014 | A. Necas | APS-DPP | Poster
In standard C-2 Field Reversed Configuration plasmas, a toroidal current is driven in deuterium plasma with hydrogen neutral beam injection.
October 2014 | P. Yushmanov | APS-DPP | Poster
Increasing understanding of electron dynamics in large expander ratio FRC diverter by analytic and numerical models.
August 2014 | L. Steinhauer | Physics of Plasmas | Paper
An interpretive method is developed for extracting details of the fully two-dimensional (2D) “internal” structure of field-reversed configurations (FRC) from common diagnostics.