Salvato in:
Dettagli Bibliografici
Autori principali: Hou, Zhangrong, Zhou, Song, Wang, Nengchao, Ding, Yonghua, Jiang, Zhonghe, Liang, Yunfeng, Ren, Zhengkang, Mao, Feiyue, Yang, Qinghu, Wang, Jiaming, Xu, Xin, Yang, Yutong, Hua, Jiankun, Xuan, Zijian, Zhao, Chuanxu, Li, Yangbo, Yu, Lei, Xia, Donghui, Chen, Zhipeng, Yang, Zhoujun, team, the J-TEXT
Natura: Preprint
Pubblicazione: 2025
Soggetti:
Accesso online:https://arxiv.org/abs/2501.07852
Tags: Aggiungi Tag
Nessun Tag, puoi essere il primo ad aggiungerne!!
_version_ 1866916565864153088
author Hou, Zhangrong
Zhou, Song
Wang, Nengchao
Ding, Yonghua
Jiang, Zhonghe
Liang, Yunfeng
Ren, Zhengkang
Mao, Feiyue
Yang, Qinghu
Wang, Jiaming
Xu, Xin
Yang, Yutong
Hua, Jiankun
Xuan, Zijian
Zhao, Chuanxu
Li, Yangbo
Yu, Lei
Xia, Donghui
Chen, Zhipeng
Yang, Zhoujun
team, the J-TEXT
author_facet Hou, Zhangrong
Zhou, Song
Wang, Nengchao
Ding, Yonghua
Jiang, Zhonghe
Liang, Yunfeng
Ren, Zhengkang
Mao, Feiyue
Yang, Qinghu
Wang, Jiaming
Xu, Xin
Yang, Yutong
Hua, Jiankun
Xuan, Zijian
Zhao, Chuanxu
Li, Yangbo
Yu, Lei
Xia, Donghui
Chen, Zhipeng
Yang, Zhoujun
team, the J-TEXT
contents The phenomena of island healing and configuration transition induced by high-power electron cyclotron resonance heating (ECRH) have been investigated in the island divertor configuration on the J-TEXT tokamak. Experimental results reveal that the size of the edge open magnetic island with mode number m/n = 3/1 decreases substantially under specific ECRH conditions. This process, referred to as island healing, occurs when ECRH with a power of 500~600 kW is deposited in the plasma core or when 250 kW of ECRH is deposited at r = 0.5 a, where a is the minor radius. The reduction of the island width makes the island divertor ineffective and transition into the limiter configuration. A model incorporating the influence of ECRH on the scrape-off layer (SOL) thermoelectric current is proposed to explain the observed changes in the edge magnetic topology of the island divertor configuration. These findings suggest that ECRH should be deposited at the plasma core with carefully controlled power to ensure the stable and compatible operation of ECRH and the island divertor configuration in tokamaks. The results can provide insights into achieving robust operation of an island divertor in tokamaks.
format Preprint
id arxiv_https___arxiv_org_abs_2501_07852
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Healing of the edge magnetic island in the island divertor configuration on J-TEXT
Hou, Zhangrong
Zhou, Song
Wang, Nengchao
Ding, Yonghua
Jiang, Zhonghe
Liang, Yunfeng
Ren, Zhengkang
Mao, Feiyue
Yang, Qinghu
Wang, Jiaming
Xu, Xin
Yang, Yutong
Hua, Jiankun
Xuan, Zijian
Zhao, Chuanxu
Li, Yangbo
Yu, Lei
Xia, Donghui
Chen, Zhipeng
Yang, Zhoujun
team, the J-TEXT
Plasma Physics
The phenomena of island healing and configuration transition induced by high-power electron cyclotron resonance heating (ECRH) have been investigated in the island divertor configuration on the J-TEXT tokamak. Experimental results reveal that the size of the edge open magnetic island with mode number m/n = 3/1 decreases substantially under specific ECRH conditions. This process, referred to as island healing, occurs when ECRH with a power of 500~600 kW is deposited in the plasma core or when 250 kW of ECRH is deposited at r = 0.5 a, where a is the minor radius. The reduction of the island width makes the island divertor ineffective and transition into the limiter configuration. A model incorporating the influence of ECRH on the scrape-off layer (SOL) thermoelectric current is proposed to explain the observed changes in the edge magnetic topology of the island divertor configuration. These findings suggest that ECRH should be deposited at the plasma core with carefully controlled power to ensure the stable and compatible operation of ECRH and the island divertor configuration in tokamaks. The results can provide insights into achieving robust operation of an island divertor in tokamaks.
title Healing of the edge magnetic island in the island divertor configuration on J-TEXT
topic Plasma Physics
url https://arxiv.org/abs/2501.07852