Recent results on high-β plasma confinement studies in the Gas Dynamic Trap

IF 2.1 3区 物理与天体物理 Q2 PHYSICS, FLUIDS & PLASMAS Journal of Plasma Physics Pub Date : 2024-05-02 DOI:10.1017/s0022377824000515
Evgeniy A. Shmigelsky, Andrej A. Lizunov, Andrey K. Meyster, Egor I. Pinzhenin, Alexander L. Solomakhin, Dmitry V. Yakovlev
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Abstract

This paper is devoted to experimental studies of plasma confinement with high relative pressure ( $\beta$ ) in the Gas Dynamic Trap (BINP, Novosibirsk). In previous high- $\beta$ confinement studies a maximum local $\beta = 0.6$ was achieved in the fast-ion turning point, contributed to by a beam-driven population of fast ions with an anisotropic distribution function. In this study the axial magnetic field profile was modified to bring the turning points closer to one another, which effectively increased the energy density of plasma and pushed the $\beta$ value higher. Experiments were performed for two non-standard magnetic configurations, where the axial fast-ion confinement region length was reduced by 1.5 and 2 times compared with the standard configuration. The average values of $\langle \beta _{\perp } \rangle$ over the plasma central cross-section were found to be 0.1 and 0.18, respectively, for the two configurations, with the latter value significantly exceeding the $\langle \beta _{\perp } \rangle =0.08$ of the standard configuration, in which the previous record was set. Moreover, halving the fast ion confinement region almost doubled the D–D fusion proton flux from the trap centre compared with the standard configuration. The electron temperature in both new magnetic configurations was only slightly smaller than in the standard configuration. In addition, an effect of Alfvén ion–cyclotron instability (AICI) development on the pressure in the turning points is discussed. Presumably, with some decrease in magnetic field an evolving AICI does not result in considerable pressure axial redistribution, so the pressure maximum is in the turning points’ vicinity despite the instability.
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气体动力陷阱中高β等离子体约束研究的最新成果
本文致力于在气体动态陷阱(BINP,新西伯利亚)中进行高相对压力($\beta$)等离子体约束的实验研究。在以前的高$\beta$约束研究中,快离子转折点达到了最大局部$\beta = 0.6$,这是由具有各向异性分布函数的束驱动快离子群造成的。在这项研究中,对轴向磁场剖面进行了修改,使转折点彼此靠得更近,从而有效地增加了等离子体的能量密度,并将 $\beta$ 值推得更高。实验采用了两种非标准磁场配置,与标准配置相比,轴向快速离子约束区长度分别缩短了 1.5 倍和 2 倍。等离子体上的 $\langle \beta _{\perp } 的平均值为\发现这两种配置在等离子体中心截面上的平均值分别为 0.1 和 0.18,后一个值大大超过了 $\langle \beta _\{perp } =0.08 的平均值。\0.08 元。此外,与标准构型相比,将快离子约束区减半几乎使来自阱中心的D-D聚变质子通量增加了一倍。两种新的磁性配置中的电子温度仅略低于标准配置。此外,还讨论了阿尔芬离子-回旋不稳定性(AICI)的发展对转折点压力的影响。据推测,随着磁场的减小,不断发展的阿尔芬离子不稳定性不会导致相当大的压力轴向再分布,因此尽管存在不稳定性,压力最大值仍在转折点附近。
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来源期刊
Journal of Plasma Physics
Journal of Plasma Physics 物理-物理:流体与等离子体
CiteScore
3.50
自引率
16.00%
发文量
106
审稿时长
6-12 weeks
期刊介绍: JPP aspires to be the intellectual home of those who think of plasma physics as a fundamental discipline. The journal focuses on publishing research on laboratory plasmas (including magnetically confined and inertial fusion plasmas), space physics and plasma astrophysics that takes advantage of the rapid ongoing progress in instrumentation and computing to advance fundamental understanding of multiscale plasma physics. The Journal welcomes submissions of analytical, numerical, observational and experimental work: both original research and tutorial- or review-style papers, as well as proposals for its Lecture Notes series.
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