Observation of alpha-particles in recent D–T experiments on JET

IF 3.5 1区物理与天体物理 Q1 PHYSICS, FLUIDS & PLASMAS Nuclear Fusion Pub Date : 2024-07-10 DOI:10.1088/1741-4326/ad5c81

V.G. Kiptily, C.D. Challis, R. Dumont, M. Fitzgerald, J. Garcia, L. Garzotti, Z. Ghani, J. Hobirk, P. Jacquet, A. Kappatou, D. Keeling, Ye. Kazakov, P. Mantica, M.J. Mantsinen, S.E. Sharapov, E.R. Solano, D. Van Eester, P.J. Bonofiglo, T. Craciunescu, A. Dal Molin, J. Eriksson, V. Goloborodko, M.V. Iliasova, E.M. Khilkevitch, D. King, I. Lengar, M. Nocente, S. Menmuir, M. Podestà, M. Poradzinski, D. Rigamonti, J. Rivero-Rodriguez, Z. Stancar, A.E. Shevelev, P. Siren, H. Sun, D.M. Taylor, M. Tardocchi, P. Beaumont, F. Belli, F.E. Cecil, R. Coelho, M. Curuia, M. Garcia-Munoz, E. Joffrin, C. Lowry, M. Lennholm, E. Lerche, C.F. Maggi, J. Mailloux, D. Marocco, M. Maslov, C. Perez Von Thun, F. Rimini, V. Zoita and JET Contributors

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引用次数: 0

Abstract

The fusion reaction between deuterium and tritium, D(T,n)4He is the main source of energy in future thermonuclear reactors. Alpha-particles (4He-ions) born with an average energy of 3.5 MeV transferring energy to the thermal plasma during their slowing down, should provide the self-sustained D–T plasma burn. The adequate confinement of α-particles is essential to provide efficient heating of the bulk plasma and steady burning of a reactor plasma. That is why the fusion-born α-particle studies have been a priority task in the second D–T experiments (DTE2) on the Joint European Torus (JET) to understand the main mechanisms of their slowing down, redistribution and losses and to develop optimal plasma scenarios. JET with Be-wall and W-divertor, enhanced auxiliary heating systems and improved energetic-particle diagnostic capabilities, producing significant population of α-particles, provided the possibility for comprehensive studying of the α-particle behaviour. Selected results of the confined and lost α-particle measurements, evidence of α-particle self-heating and assessments of the fusion performance are presented in this paper giving an opportunity for further modelling and extrapolation to the International Thermonuclear Experimental Reactor and burning plasma reactors.

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最近在 JET 上进行的 D-T 实验中观测到的α粒子

氘和氚之间的聚变反应（D(T,n)4He）是未来热核反应堆的主要能量来源。平均能量为 3.5 MeV 的α粒子（4He 离子）在减速过程中将能量传递给热等离子体，从而提供自我维持的 D-T 等离子体燃烧。α粒子的充分约束对于有效加热大块等离子体和反应堆等离子体的稳定燃烧至关重要。因此，在欧洲联合环（JET）上进行的第二次 D-T 实验（DTE2）中，聚变产生的 α 粒子研究是一项优先任务，目的是了解其减速、再分布和损耗的主要机制，并制定最佳等离子体方案。JET 配备了 Be-wall 和 W-divertor，增强了辅助加热系统，提高了高能粒子诊断能力，产生了大量 α 粒子，为全面研究 α 粒子行为提供了可能。本文介绍了α粒子封闭和丢失测量的部分结果、α粒子自热的证据以及聚变性能评估，为进一步建模和推断国际热核实验反应堆和燃烧等离子反应堆提供了机会。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nuclear Fusion 物理-物理：核物理

CiteScore

6.30

自引率

39.40%

发文量

411

审稿时长

2.6 months

期刊介绍： Nuclear Fusion publishes articles making significant advances to the field of controlled thermonuclear fusion. The journal scope includes: -the production, heating and confinement of high temperature plasmas; -the physical properties of such plasmas; -the experimental or theoretical methods of exploring or explaining them; -fusion reactor physics; -reactor concepts; and -fusion technologies. The journal has a dedicated Associate Editor for inertial confinement fusion.