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Research Library

Our research is here to help.

man working on circuit board TAE Technologies

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.

Featured papers.

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…

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.

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May 2021 | J. B. Titus | Review of Scientific Instruments | Paper

The C-2W experiment produces advanced beam-driven field FRC plasmas, which are sustained in steady state utilizing variable energy neutral beams, advanced divertors, end bias electrodes, and an active plasma
control system.

May 2021 | N. Bolte | Review of Scientific Instruments | Paper

In TAE Technologies’ current experimental fusion device, C-2W, record breaking, advanced beam-driven FRC plasmas are produced and sustained in steady state utilizing variable-energy neutral beams, expander divertors, end-bias electrodes, and an active plasma control system.

April 2021 | E. M. Granstedt | Review of Scientific Instruments | Paper

The C-2W device (“Norman”) [Gota et al., Nucl. Fusion 59, 112009 (2019)] has produced and sustained beam-driven field-reversed configuration (FRC) plasmas embedded in a magnetic mirror geometry using neutral beams and end-bias electrodes located in expander divertors.

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