Oct 2017 | Research Library, Posters, Confinement, Experiment, Formation, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Overview, Performance, Plasma Research
October 2017 | H. Gota | APS-DPP | Poster
Tri Alpha Energy’s research has been devoted to producing a high temperature, stable, long-lived field-reversed configuration (FRC) plasma state by neutral-beam injection (NBI) and edge biasing/control.
Nov 2016 | Research Library, Presentations, Fast Particles, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Overview, Plasma Research
November 2016 | Artem Smirnov | CAARI | Presentation
Neutral beam-driven field reversed configuration offers reactor advantages.
Oct 2016 | Research Library, Posters, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Overview, Plasma Research, Turbulence
October 2016 | Michel Tuszewski | APS-DPP | Poster
Experimentally measured inverted core density fluctuations spectra show the absence of ion-scale modes in the FRC core, in agreement with linear, local gyrokinetic simulations.
Oct 2016 | Research Library, Posters, Diagnostics, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Overview, Plasma Research
October 2016 | Matt Thompson | APS-DPP | Poster
TAE Technologies (TAE) seeks to study the evolution of advanced beam-driven field reversed configuration (FRC) plasmas sustained and heated by neutral beam (NB) injection.
Oct 2016 | Research Library, Posters, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Overview, Performance, Plasma Research
October 2016 | S. Dettrick | APS-DPP | Poster
Simulation of High Performance Beam Driven FRC shows that hot FRC is formed by thermalization of fast colliding FRCs.
Aug 2016 | Research Library, Papers, Diagnostics, Experiment, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Overview
August 2016 | M. C. Thompson | Review of Scientific Instruments | Paper
The C-2U experiment at Tri Alpha Energy studies the evolution of field-reversed configuration (FRC) plasmas sustained by neutral beam injection. Data on the FRC plasma performance are provided by a comprehensive suite of diagnostics that includes magnetic sensors, interferometry, Thomson scattering, spectroscopy, bolometry, reflectometry, neutral particle analyzers, and fusion product detectors.