Instabilities Archives - Page 2 of 8 - TAE Technologies

Identifying Density Fluctuation Modes with the FIR Interferometer System in C-2W FRCs

Nov 2021 | Research Library, Posters, Diagnostics, Experiment, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Instabilities, Plasma Research, Turbulence

November 2021 | C. Deng | APS-DPP 2021 | Poster

In the TAE Technologies current experimental device, C-2W (also called “Norman”), record breaking, advanced beam-driven FRC plasmas are produced and sustained in steady state utilizing variable energy neutral beams, advanced divertors, end bias electrodes, and…

Multi-instrument Bayesian reconstruction of plasma shape evolution in the C-2W experiment

Jun 2021 | Research Library, Papers, Diagnostics, Experiment, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Instabilities, Plasma Profiles, Plasma Research

June 2021 | M. Dikovsky | Physics of Plasmas | Paper

We determined the time-dependent geometry, including high-frequency oscillations, of the plasma density in TAE’s C-2W experiment.

MHD mode identification by higher order singular value decomposition of C-2W Mirnov probe data

Apr 2021 | Research Library, Papers, Diagnostics, Experiment, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Instabilities, Plasma Research

April 2021 | M. Tobin | Review of Scientific Instruments | Paper

The C-2W device (also known as “Norman”) at TAE Technologies has proven successful at generating stable, long-lived field-reversed configuration (FRC) plasmas with record temperatures.

Turbulence and ExB Flow Measurements via DBS/CPS in the C-2W Field-Reversed Configuration

Feb 2021 | Research Library, Posters, Diagnostics, Experiment, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Instabilities, Plasma Research, Turbulence

December 2020 | L. Schmitz | HTPD 2020 | Poster

A four channel DBS system delivers fluctuation data and ExB velocity covering the entire shot. ExB velocity measurements confirm strong ExB

Control of E×B Velocity Shear Flow via Divertor Biasing in the C-2W Field-Reversed Configuration

Jan 2021 | Research Library, Presentations, Diagnostics, Equilibrium, Experiment, Fusion Energy, Fusion Research, Fusion Science, Fusion Technology, Instabilities, Plasma Research, Simulation, Stability, Transport, Turbulence

November 2020 | L. Schmitz | APS-DPP | Presentation

C-2W is a beam-driven, sustained field-reversed configuration that allows systematic transport studies

Identifying Density Fluctuation Modes with the FIR Interferometer System in C-2W FRCs

Multi-instrument Bayesian reconstruction of plasma shape evolution in the C-2W experiment

MHD mode identification by higher order singular value decomposition of C-2W Mirnov probe data

Turbulence and ExB Flow Measurements via DBS/CPS in the C-2W Field-Reversed Configuration

Control of E×B Velocity Shear Flow via Divertor Biasing in the C-2W Field-Reversed Configuration

Search