開催案内：2月24日　第662回レーザー科学研究所コロキウム

下記の第662回レーザー科学研究所コロキウムが当プログラムとの共催で開催予定です。

●日時(Date):
2026年2月24日(火) 13時00分～14時00分

○場所(Place):
レーザー科学研究所 研究棟3階 大会議室 (R302)

●講演者(Speaker):
Ahmed Diallo (Princeton Plasma Physics Laboratory, Princeton University, Princeton, NJ, USA)

○題目(Title):
Spin-Polarized Fuel for Enhanced Tritium Self-Sufficiency and Electric Power Output

●概要(Abstract):
Spin-polarized deuterium-tritium (D-T) fuel can markedly improve both net electric power and tritium burn efficiency (TBE) in fusion power plants (FPPs). By polarizing the nuclear spins of the fusion fuel, the fusion cross section is predicted to increase by 50%, and the emission spectra of fusion products can be altered [1]. Complementary studies indicate that spin-polarized fuel (SPF) may boost fusion thermal power by up to 90% [2,3]. SPF offers other benefits including an enhanced tritium breeding ratio, extended magnet lifetimes [4], and a reduction in the tritium startup inventory requirement by 90% [5,6]. Overall, SPF has the potential to multiply the net electric output relative to unpolarized fuel, a benefit that becomes especially significant for FPPs operating near engineering breakeven—where even a modest 25% increase in fusion power in an ITER-like device translates into disproportionately large gains in net electricity.
Moreover, our results demonstrate that reducing the tritium fraction in the D-T mixture—when combined with spin polarization—can improve TBE by an order of magnitude without compromising fusion power [7,8]. For example, in an ARC-like tokamak producing 482 MW with a 51:49 D-T mix, the minimum startup tritium inventory falls from 0.69 kg to 0.03 kg when the fuel is fully spin polarized and the mix is optimized to 61:39. These findings highlight the role of high plasma performance in enhancing TBE. With further improvements in helium divertor pumping efficiency [7], operating at tritium fractions as low as 10–40% can still yield robust power output while drastically reducing both the startup and circulating tritium inventory.
Our work thus strongly motivates the development of spin-polarized fuels and low-tritium-fraction strategies to drive burning plasmas toward greater tritium self-sufficiency and more economical fusion power. We conclude by discussing the primary challenges that remain before SPF can be deployed in practical fusion systems [2,9,10].

In collaboration with , J. F. Parisi (Marathon Fusion), K. Borowiec (ORNL), J.W. Bae (ORNL), V. Badalassi (ORNL), J.A. Schwartz (Marathon Fusion), A. Rutkowski (Marathon Fusion), J.E. Menard (PPPL), A. Khodak (PPPL), T. Brown(PPPL)

[1] R. M. Kulsrud, E. J. Valeo, and S. C. Cowley, Physics of spin-polarized plasmas, Nuclear Fusion, 26, 1443 (1986)
[2] W. Heidbrink et al., A research program to measure the lifetime of spin polarized fuel, Frontiers in Physics, 12 (2024)
[3] S. Smith et al., The potential for retention of spin polar- ization to raise fusion reactivity, 27th IAEA Fusion Energy Conference, [FIP/P3-10] (2018). [4] J. W. Bae et al., Neutronics Analysis of Spin-Polarized Fuel in Spherical Tokamaks, in prep (2025)
[5] S. Meschini et al., Modeling and analysis of the tritium fuel cycle for ARC-and STEP-class DT fusion power plants, Nuclear Fusion, 63, 126005 (2023)
[6] J. F. Parisi and A. Diallo, Electric Power Enhancement using Spin-Polarized Fuel in Fusion Power Plants, arXiv:2502.15941 (2025)
[7] D. G. Whyte et al., Tritium burn efficiency in deuterium–tritium magnetic fusion, Nuclear Fusion, 63, 126019 (2023)
[8] J. F. Parisi, A. Diallo, & J. A. Schwartz, Simultaneous enhancement of tritium burn efficiency and fusion power with low-tritium spin-polarized fuel, Nuclear Fusion, 64, 126019 (2024)
[9] L. Baylor, et al. “Polarized fusion and potential in situ tests of fuel polarization survival in a tokamak plasma.” Nuclear Fusion 63, 076009,(2023)
[10] A.V. Garcia, W. W. Heidbrink, and A. M. Sandorfi. “Conceptual design of DIII-D experiments to diagnose the lifetime of spin polarized fuel.” Nuclear Fusion 63 026030 (2023)

オンライン配信: Microsoft Teams meeting
https://teams.microsoft.com/meet/45040348859585?p=0Me0D0JnZX61phD8ZC
Meeting ID: 450 403 488 595 85
Passcode: Zc96Gj6a

○連絡先(Contact Person):
藤岡 慎介 fujioka.shinsuke.ile@osaka-u.ac.jp

共催：
JSPS拠点形成事業（先端拠点型）
Blue Laser Fusionエネルギー協働研究所