Le Scienze
Le Scienze featured TAE Technologies in the January 2017 edition of their magazine.
Entrepreneurial spirit and fusion research
January 2017 | GOTA Hiroshi | The Journal of the Japan Society of Plasma Science and Nuclear Fusion Research | Paper
TAE Technologies is one of the companies that conduct fusion research in the entrepreneurial approach. It is often asked why and how such research in the large scale and long range may be carried out based on private funds. English version included.
Suppressed ion-scale turbulence in a hot high-beta plasma
December 2016 | L. Schmitz | Nature Communications | Paper
An economic magnetic fusion reactor favours a high ratio of plasma kinetic pressure to magnetic pressure in a well-confined, hot plasma with low thermal losses across the confining magnetic field.
FRC separatrix inference using machine learning techniques
November 2016 | J. Romero | APS-DPP | Presentation
Method to infer the FRC separatrix geometry and axial stability properties of the equilibrium developed. Tested with equilibrium code simulations
Accelerator Technology Development at TAE Technologies
November 2016 | Artem Smirnov | CAARI | Presentation
Neutral beam-driven field reversed configuration offers reactor advantages.
Can Small Fusion Energy Start-Ups Conquer the Problems That Killed the Giants?
TAE Technologies was featured in the Scientific American magazine article, “Can Small Fusion Energy Start Ups Conquer the Problems that Killed the Giants?”
Opto-Mechanical Design of FIR Diagnostic System for C-2W
October 2016 | M. Beall | APS-DPP | Poster
Upgraded interferometer/polarimeter on center plane of machine to provide high resolution density and magnetic field information.
A Pre-ionization System to Limit Neutral Gas in a Compact Toroid Injector
October 2016 | I. Allfrey | APS-DPP | Poster
Fusion plasmas require long lifetimes and high temperatures, both of which are limited by particle loss, among other factors.
Spectroscopic Observations of Scrape-Off Layer Electron Temperature and Density
October 2016 | Dima Osin | APS-DPP | Poster
C-2U is a macroscopically stable, high-performance field-reversed configuration (HPF), where high plasma temperatures with significant fast-ion population and record lifetimes were achieved.
Hybrid Reconstruction of Field-Reversed Configurations
October 2016 | L. Steinhauer | APS-DPP | Poster
The C-2U facility at TAE Technologies creates an advanced, beam-driven FRC with large ion orbits. The plasma is sustained for > 5ms.