The maximum-J property in quasi-isodynamic stellarators

IF 2.1 3区 物理与天体物理 Q2 PHYSICS, FLUIDS & PLASMAS Journal of Plasma Physics Pub Date : 2024-04-16 DOI:10.1017/s0022377824000345
E. Rodríguez, P. Helander, A.G. Goodman
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Abstract

Some stellarators tend to benefit from favourable average magnetic curvature for trapped particles when the plasma pressure is sufficiently high. This so-called maximum-$J$Abstract Image property has several positive implications, such as good fast-particle confinement, magnetohydrodynamic stability and suppression of certain trapped-particle instabilities. This property cannot be attained in quasisymmetric stellarators, in which deeply trapped particles experience average bad curvature and therefore precess in the diamagnetic direction close to the magnetic axis. However, quasi-isodynamic stellarators offer greater flexibility and allow the average curvature to be favourable and the precession to be reversed. We find that it is possible to design such stellarators so that the maximum-$J$Abstract Image condition is satisfied for the great majority of all particles, even when the plasma pressure vanishes. The qualitative properties of such a stellarator field can be derived analytically by examining the most deeply and the most shallowly trapped particles, although some small fraction of the latter will inevitably not behave as desired. However, through numerical optimisation, we construct a vacuum field in which 99.6 % of all trapped particles satisfy the maximum-$J$Abstract Image condition.

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准等动力恒星器中的最大 J 特性
当等离子体压力足够高时,一些恒星器往往会受益于被困粒子的有利平均磁曲率。这种所谓的最大-$J$特性具有多种积极意义,如良好的快速粒子约束、磁流体力学稳定性和抑制某些被困粒子不稳定性。在准对称恒星器中无法实现这一特性,因为在这种恒星器中,深度被困粒子会经历平均不良曲率,因此会在靠近磁轴的二磁方向发生前冲。然而,准等动力学恒星器提供了更大的灵活性,可以使平均曲率变得有利,并逆转前冲。我们发现有可能设计出这样的恒星仪,使绝大多数粒子都能满足最大-$J$条件,即使等离子体压力消失时也是如此。通过研究陷得最深和陷得最浅的粒子,可以分析得出这种恒星器场的定性特性,尽管后者中的一小部分不可避免地会表现得不尽如人意。不过,通过数值优化,我们构建了一个真空场,其中 99.6% 的被困粒子都满足最大-$J$条件。
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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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