DIII-D 上锯齿形碰撞时的磁芯感应电场

IF 2.1 2区 物理与天体物理 Q2 PHYSICS, FLUIDS & PLASMAS
T E Benedett, J Chen, D L Brower and W X Ding
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引用次数: 0

摘要

托卡马克等离子体上的锯齿形碰撞通过一种尚未完全理解的机制,表现出比电阻时间尺度更快的弛豫。利用 DIII-D 托卡马克上的径向干涉仪-极坐标仪(RIP)诊断仪进行的核心磁场测量,可以计算出受具有高时间分辨率(微秒)的内部磁场测量约束的格拉德-沙夫拉诺夫平衡,从而分析安全系数 q、电流密度 J 和平行电场等平衡参数(尤其是轴向)是如何演变的。在锯齿形碰撞时,观察到轴向安全系数 q0 上升了 5%,但在整个周期内保持在 1 以下,轴向电流密度 J0 下降了 5%。除了在 200 µs 碰撞期间,轴上平行电场达到 22 V m-1,超出 2000 多倍之外,其他时间都是通过(电阻率乘以轴上电流密度)来平衡的。这些首次在托卡马克等离子体中进行的测量验证了广义欧姆定律在碰撞期间并不能仅仅通过电阻效应来平衡;这是由于弛豫时间比电阻时间尺度快得多而预期得到的结果。对托卡马克锯齿期间电场的测量有助于阐明起作用的物理机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Core inductive electric field during sawtooth crashes on DIII-D
Sawtooth crashes on tokamak plasmas exhibit relaxation much faster than resistive time scales via a mechanism not fully understood. Using core magnetic measurements from the Radial Interferometer-Polarimeter (RIP) diagnostic on the DIII-D tokamak, Grad–Shafranov equilibria constrained by internal magnetic measurements that have high time resolution ( µs) can be computed, allowing analysis of how equilibrium parameters such as safety factor q, current density J, and parallel electric field , particularly on-axis, evolve. At the sawtooth crash, on-axis safety factor q0 is observed to rise by 5% but remain below 1 throughout the cycle, and on-axis current density J0 is observed to drop by 5%. On-axis parallel electric field is found to be balanced by (resistivity times on-axis current density) except during the 200 µs crash period, where reaches 22 V m−1, exceeding by a factor of more than 2000. These first measurements in tokamak plasmas verify that generalized Ohm’s law is not balanced during the crash by resistive effects alone; this is a finding expected due to the relaxation being much faster than resistive timescales. Measurement of the electric field during the tokamak sawtooth serves to illuminate the physical mechanisms at work.
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来源期刊
Plasma Physics and Controlled Fusion
Plasma Physics and Controlled Fusion 物理-物理:核物理
CiteScore
4.50
自引率
13.60%
发文量
224
审稿时长
4.5 months
期刊介绍: Plasma Physics and Controlled Fusion covers all aspects of the physics of hot, highly ionised plasmas. This includes results of current experimental and theoretical research on all aspects of the physics of high-temperature plasmas and of controlled nuclear fusion, including the basic phenomena in highly-ionised gases in the laboratory, in the ionosphere and in space, in magnetic-confinement and inertial-confinement fusion as well as related diagnostic methods. Papers with a technological emphasis, for example in such topics as plasma control, fusion technology and diagnostics, are welcomed when the plasma physics is an integral part of the paper or when the technology is unique to plasma applications or new to the field of plasma physics. Papers on dusty plasma physics are welcome when there is a clear relevance to fusion.
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