October 2022 | G. Player | APS-DPP 2022 | Poster
The suite of fast ion diagnostics on the C-2W device include neutral particle analyzers (NPAs), scintillating neutron detectors, silicon proton detectors, and particle bolometers
October 2022 | Y. Musthafa | APS-DPP 2022 | Poster
An extensive suite of survey spectrometers has been deployed on C-2W in order to understand the spatial profile and time evolution of the plasma composition
October 2022 | J. Sweeney | APS-DPP 2022 | Poster
Z-effective increase after injection was followed by a delayed rise in electron density. For Argon injection, this included a significant drop in electron temperature.
October 2022 | M. Kaur | APS-DPP 2022 | Poster
NB-driven FRC plasmas stay in a steady-state for long time and allow a thorough study of electron heating mechanisms. Core plasma šš
shows a strong correlation with ššµššš .
October 2022 | A. Bondarenko | APS-DPP 2022 | Poster
Record breaking, advanced beam-driven FRC plasmas are produced and sustained in steady state utilizing variable energy neutral beams (15 – 40 keV, total power up to 20 MW)
October 2022 | R. Smithļ»æ | APS-DPP 2022 | Poster
Both the TAE Norman and the future TAE Copernicus devices can provide a platform to implement several of the microwave diagnostics currently employed on Tokamak devices
October 2022 | C. Dengļ»æ | APS-DPP 2022 | Poster
TAE Technologies current experimental device, record breaking, advanced beam-driven, high temperature FRC plasmas are produced and sustained in steady state utilizing variable energy neutral beams, advanced divertors, end bias electrodes, and an active plasma control system.
October 2022 | K. Zhaiļ»æ | APS-DPP 2022 | Poster
To better
understand the machine performance and to prepare for the design of TAEās next generation
experiment Copernicus, a series of experiments with different field configuration and fueling
schemes have been carried out.
October 2022 | J. Romeroļ»æ | APS-DPP 2022 | Poster
TAE technologies has demonstrated for the first time that a long FRC with fusion relevant parameters can be sustained in steady state using feedback control.
October 2022 | T. Rocheļ»æ | APS-DPP 2022 | Poster
The experimental device C-2W, also known as Norman, was initially optimized in early 2019 to performance levels up to and exceeding its specified design points