Study of electric currents excitation in the plasma of the L-2M stellarator with its electronic cyclotronic creation and heating

ADVANCES IN APPLIED PHYSICS Pub Date : 2021-09-22 DOI:10.51368/2307-4469-2021-9-4-310-324

S. Grebenshchikov, D. G. Vasilkov, V. Ivanov, K. Sarksyan, M. Tereshchenko, N. Kharchev

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Abstract

The results of measuring the longitudinal electric current excited in the toroidal plasma of the L-2M stellarator as a result of powerful pulsed microwave heating (power up to 600 kW, pulse duration up to 20 ms) are presented. In the experi-ments, to create and heat plasma in the stellarator, microwave radiation of gyro-trons with a frequency of 75 GHz, equal to the frequency of the 2nd harmonic of electron cyclotron resonance for a magnetic field with induction B = 1.34 T at the center of the plasma column, was used. To measure the currents in the plasma, di-agnostic systems of the stellarator were used, designed to record changes in time of the transverse and poloidal magnetic fields. It is shown that the presence of an ohmic heating iron transformer in the stellarator design significantly affects the temporal development of equilibrium currents due to the significant inductance of the toroidal plasma. When compensating the inductance of these devices, the ex-pected value of the current excited in the plasma can reach a value of about 7 kA.

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L-2M仿星器电子回旋产生和加热等离子体电流激发的研究

本文介绍了L-2M仿星器在大功率脉冲微波加热(功率达600 kW，脉冲持续时间达20 ms)下环形等离子体所激发的纵向电流的测量结果。实验中，为了在仿星器中产生和加热等离子体，在等离子体柱中心磁场感应强度B = 1.34 T时，使用频率为75 GHz的回旋加速器微波辐射，该频率等于电子回旋共振的二次谐波频率。为了测量等离子体中的电流，仿星器的诊断系统被用来记录横向和极向磁场的时间变化。结果表明，由于环形等离子体的显著电感，仿星器设计中欧姆加热铁变压器的存在显著影响平衡电流的时间发展。当对这些器件的电感进行补偿时，等离子体中激发的电流期望值可达7 kA左右。

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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ADVANCES IN APPLIED PHYSICS

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