A research program to measure the lifetime of spin polarized fuel

W. W. Heidbrink, L. R. Baylor, M. Büscher, R. W. Engels, A. V. Garcia, A. G. Ghiozzi, G. W. Miller, A. M. Sandorfi, X. Wei

Research output: Contribution to journalConference articlepeer-review

Abstract

The use of spin polarized fuel could increase the deuterium-tritium (D-T) fusion cross section by a factor of 1.5 and, owing to alpha heating, increase the fusion power by an even larger factor. Issues associated with the use of polarized fuel in a reactor are identified. Theoretically, nuclei remain polarized in a hot fusion plasma. The similarity between the Lorentz force law and the Bloch equations suggests polarization can be preserved despite the rich electromagnetic spectrum present in a magnetic fusion device. The most important depolarization mechanisms can be tested in existing devices. The use of polarized deuterium and 3He in an experiment avoids the complexities of handling tritium, while encompassing the same nuclear reaction spin-physics, making it a useful proxy to study issues associated with full D-T implementation. 3He fuel with 65% polarization can be prepared by permeating optically-pumped 3He into a shell pellet. Dynamically polarized 7Li-D pellets can achieve 70% vector polarization for the deuterium. Cryogenically-frozen pellets can be injected into fusion facilities by special injectors that minimize depolarizing field gradients. Alternatively, polarized nuclei could be injected as a neutral beam. Once injected, the lifetime of the polarized fuel is monitored through measurements of escaping charged fusion products. Multiple experimental scenarios to measure the polarization lifetime in the DIII-D tokamak and other magnetic-confinement facilities are discussed, followed by outstanding issues that warrant further study.

Original languageEnglish
Article number107
JournalProceedings of Science
Volume456
StatePublished - Jul 30 2024
Event25th International Symposium on Spin Physics, SPIN 2023 - Durham, United States
Duration: Sep 24 2023Sep 29 2023

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