February 2018 | L. Steinhauer | Physics of Plasmas | Paper
Coupled transport is the close interconnection between the cross-field and parallel fluxes in differ- ent regions due to topological changes in the magnetic field. This occurs because perpendicular transport is necessary for particles or energy to leave closed field-line regions, while parallel transport strongly affects evolution of open field-line regions.
World’s most powerful field-reversed configuration plasma generator steps company closer to delivering Friendly Fusion.
Fusion energy leader receives recognition as one of the most innovative and promising ideas in cleantech.
April 2018 | T. Schindler | HTPD2018 | Poster
The C-2W Thomson Scattering diagnostic consists of two individual systems for monitoring electron temperature and density; one system in the central region is operational and the second system, currently under design, will monitor the open field line jet region1.
April 2018 | T. Roche | HTPD2018 | Poster
The C-2W machine is the world’s premier Advanced Beam-Driven FRC
n Monitoring the complete magnetic evolution of the plasma is essential for
understanding the system’s dynamics
n Over 500 B-field signals are monitored to provide both post-shot analysis data and data for an advanced active feedback system.
April 2018 | T. Matsumoto | HTPD2018 | Poster
We have been conducting compact toroid (CT) collision and merging experiments by using two magnetized
coaxial plasma guns (MCPG). As is well known, an actual CT/plasmoid moves macroscopically in a confining magnetic field. Therefore, three-dimensional measurements are important in understanding the behavior of the CTs.
The TAE Technologies modeling group has won a 2018 US Department of Energy INCITE (Innovative and Novel Computational Impact on Theory and Experiment) award on the Argonne Leadership Computing Facility’s Theta supercomputer. The award is for 31MCH (million core hours), which is equivalent to 100MCH on ALCF’s Blue Gene supercomputer, Mira, and will be used to accelerate our research in creating clean fusion energy.
We are proud to now announce that this week we have achieved colliding and merging of field-reverse configurations (FRCs) on Norman, which is another critical marker on our path to success.
November 2017 | H. Gota | Nuclear Fusion | Paper
The TAE Technologies experimental program has demonstrated reliable field-reversed configuration (FRC) formation and sustainment, driven by fast ions via high-power neutral-beam (NB) injection.
Our explainer video will help illustrate the work we’re doing with field-reverse configurations (FRCs), and offer insights into how we operate Norman.