TAE has spent over 20 years working to develop and distribute the cleanest, most sustainable energy source of all time. Our unique approach combines plasma physics and accelerator physics for a brand new pathway to fusion power. Read about our top breakthroughs, and browse the entire research library for over 350 posters and papers published in the world’s leading peer-reviewed journals.
February 2023 | R. Magee | Nature Communications | Paper
Proton-boron (p11B) fusion is an attractive potential energy source but technically challenging to implement. Developing techniques to realize its potential requires first developing the experimental capability to produce p11B fusion…
October 2021 | H. Gota | Nuclear Fusion | Paper
TAE Technologies, Inc. (TAE) is pursuing an alternative approach to magnetically confined fusion, which relies on field-reversed configuration (FRC) plasmas composed of mostly energetic…
March 2019 | R.M. Magee | Nature Physics | Paper
Efficiently heating a magnetically confined plasma to thermonuclear temperatures remains a central issue in fusion energy research. One well-established technique is to inject beams of neutral particles into the plasma, a process known as neutral beam injection.
February 2018 | J.A. Romero | Nature Communications | Paper
Active control of field reversed configuration (FRC) devices requires a method to determine the flux surface geometry and dynamic properties of the plasma during both transient and steady-state conditions.
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.
July 2017 | E. A. Baltz | Scientific Reports | Paper
TAE and Google have partnered to combine human and machine interaction to further plasma science using their “Optometrist Algorithm.”
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.
May 2015 | M. Binderbauer | Physics of Plasmas | Paper
Conventional field-reversed configurations (FRCs), high-beta, prolate compact toroids embedded in poloidal magnetic fields, face notable stability and confinement concerns.
August 2014 | H. Gota | 2014 Open Systems | Presentation
High-temperature, stable, long-lived FRC state called, High Performance FRC (HPF), has been produced in the C-2 device with plasma-guns and NB injections.
August 2014 | R. Magee | Review of Scientific Instruments | Paper
Measurements of the flux of fusion products from high temperature plasmas provide valuable insights into the ion energy distribution, as the fusion reaction rate is a very sensitive function of ion energy.
August 2014 | L. Schmitz | Review of Scientific Instruments | Paper
A versatile heterodyne Doppler Backscattering (DBS) system is used to measure density fluctuation levels (in the wavenumber range kρs ≤ 50), and the toroidal E × B flow velocity in the C-2 Field-Reversed Configuration (FRC).
August 2014 | H. Gota | Review of Scientific Instruments | Paper
A comprehensive diagnostic suite for field-reversed configuration (FRC) plasmas has been developed and installed on the C-2 device at TAE Technologies to investigate the dynamics of FRC formation as well as to understand key FRC physics properties, e.g., confinement and stability, throughout a discharge.
August 2014 | B. Deng | EPR Workshop | Presentation
Improvements in C-2 FRC experiment, and the development of the high performance FIR laser scattering diagnostics provide a great opportunity for fluctuation and transport studies in CT plasmas.
July 2014 | T. Roche | Review of Scientific Instruments | Paper
Several in situ probes have been designed and implemented into the diagnostic array of the C-2 field-reversed configuration (FRC) at TAE Technologies.
July 2014 | T. Roche | Plasma Sources Science and Technology | Paper
Diffusion of test-ions in a flux-coil generated, collisional, field-reversed configuration is measured via time-resolved tomographic reconstruction of Ar+ optical emission in the predominantly nitrogen plasma.
June 2014 | B. Deng | Review of Scientific Instruments | Paper
A two-chord far infrared (FIR) laser polarimeter for high speed sub-degree Faraday rotation measurements in the C-2 field reversed configuration experiment is described.
June 2014 | H. Gota | HTPD | Poster
FRC plasmas are well diagnosed in the C-2 device; > 50 diagnostic systems. C-2 extensive diag suite provides understanding of basic physics of FRC plasmas.
June 2014 | L. Schmitz | HTPD | Poster
At higher toroidal wave number, the density level fluctuation decreases exponentially. Fluctuation levels are very low in FRC core.
June 2014 | R. Clary | HTPD | Poster
The C-2 field-reversed configuration (FRC) experiment has achieved operating regime exceeding empirical scaling laws.
June 2014 | R. Magee | HTPD | Poster
Measurements of the flux of fusion products from high temperature plasmas provide valuable insights into the ion energy distribution, as the fusion reaction rate is a very sensitive function of ion energy.
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