Investigating the occurrence and predictability of Pitch Angle Scattering events at ADITYA-Upgrade tokamak with the electron cyclotron emission radiometer

Plasma Science and Technology Pub Date : 2024-07-12 DOI:10.1088/2058-6272/ad62aa

V. Siju, Santosh Pandya, S. K. Pathak, Ansh Patel, U. Nagora, Shishir Purohit, Samir K. Jha, Manoj Gupta, K. Tahiliani, Rohit Kumar Gupta, R. Tanna, Joydeep Ghosh

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Abstract

This paper describes the experimental analysis and preliminary investigation on the predictability of Pitch Angle Scattering (PAS) events through the Electron Cyclotron Emission (ECE) Radiometer signals at the ADITYA-Upgrade (ADITYA-U) tokamak. For low density discharges at ADITYA-U, a sudden abnormal rise is observed in the ECE signature while other plasma parameters are unchanged. Investigations are done to understand this abrupt rise that is expected to occur due to PAS. The rise time is as fast as 100 µs with a single step and/or multiple steps rise in ECE radiometer measurements. This event is known to limit the on-axis energy of runaway electrons. Being a repetitive event, the conditions of its repetitive occurrence can be investigated and thereby exploring the possibility of it being triggered and surveyed as an alternate runaway electron mitigation plan. Functional parameterization of such events with other discharge parameters is obtained and the possibility to trigger these events is discussed. PREDICT code is used to investigate the possible interpretations for the PAS occurrence through modeling and support the ECE observations. The trigger values so obtained experimentally are set as input criteria for PAS occurrence. Preliminary modeling investigations provide reliable consistency with the findings.

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利用电子回旋加速器辐射计研究ADITYA-升级型托卡马克发生的俯仰角散射事件及其可预测性

本文介绍了通过电子回旋加速器发射（ECE）辐射计信号对ADITYA-U（ADITYA-U）托卡马克的俯仰角散射（PAS）事件的可预测性进行的实验分析和初步研究。对于ADITYA-U的低密度放电，在其他等离子体参数不变的情况下，ECE信号会突然异常上升。为了理解这种预计由 PAS 引起的突然上升，我们进行了调查。上升时间快达 100 微秒，在 ECE 辐射计测量中出现单级和/或多级上升。众所周知，这一事件会限制失控电子的轴上能量。作为一种重复发生的事件，可以对其重复发生的条件进行研究，从而探索其触发的可能性，并将其作为一种替代的失控电子缓解计划进行调查。我们获得了此类事件与其他放电参数的功能参数化，并讨论了触发这些事件的可能性。PREDICT 代码用于通过建模研究 PAS 发生的可能解释，并为欧洲经委会的观测提供支持。通过实验获得的触发值被设定为 PAS 发生的输入标准。初步的建模调查与研究结果具有可靠的一致性。

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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Plasma Science and Technology

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