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Edge Temperature Ring Oscillation Modulated by Turbulence Transition for Sustaining Stationary Improved Energy Confinement Plasmas
Edge Temperature Ring Oscillation Modulated by Turbulence Transition for Sustaining Stationary Improved Energy Confinement Plasmas
by Liu, Y , Qu, C M , EAST Team , Feng, X , Ding, W X , Liu, Z X , Hu, G H , Liu, Z Y , Wang, M Y , Wang, Y M , Verdoolaege, G , Liu, A D , Wang, L , Wang, S X , H Li , B Lv , Zhong, X M , Wang, Z X , Mao, W Z , Dong, J Q , Zhou, C , Li, Y Y , Xie, J L , Zhang, Q , Zhuang, G , Liu, W D , Liu, H Q , Zhang, S B , Han, M K , Zhao, H L , Zou, X L , Duan, Y M , Ji, J X , Lan, T , Wang, T B , Zhang, J
in Confinement / Electron energy / Fusion reactors / Heat flux / Ion temperature / Plasmas (physics) / Rings (mathematics) / Temperature gradients / Tokamak devices / Turbulence
2020
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Edge Temperature Ring Oscillation Modulated by Turbulence Transition for Sustaining Stationary Improved Energy Confinement Plasmas
by Liu, Y , Qu, C M , EAST Team , Feng, X , Ding, W X , Liu, Z X , Hu, G H , Liu, Z Y , Wang, M Y , Wang, Y M , Verdoolaege, G , Liu, A D , Wang, L , Wang, S X , H Li , B Lv , Zhong, X M , Wang, Z X , Mao, W Z , Dong, J Q , Zhou, C , Li, Y Y , Xie, J L , Zhang, Q , Zhuang, G , Liu, W D , Liu, H Q , Zhang, S B , Han, M K , Zhao, H L , Zou, X L , Duan, Y M , Ji, J X , Lan, T , Wang, T B , Zhang, J
in Confinement / Electron energy / Fusion reactors / Heat flux / Ion temperature / Plasmas (physics) / Rings (mathematics) / Temperature gradients / Tokamak devices / Turbulence
2020
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Edge Temperature Ring Oscillation Modulated by Turbulence Transition for Sustaining Stationary Improved Energy Confinement Plasmas
Edge Temperature Ring Oscillation Modulated by Turbulence Transition for Sustaining Stationary Improved Energy Confinement Plasmas
by Liu, Y , Qu, C M , EAST Team , Feng, X , Ding, W X , Liu, Z X , Hu, G H , Liu, Z Y , Wang, M Y , Wang, Y M , Verdoolaege, G , Liu, A D , Wang, L , Wang, S X , H Li , B Lv , Zhong, X M , Wang, Z X , Mao, W Z , Dong, J Q , Zhou, C , Li, Y Y , Xie, J L , Zhang, Q , Zhuang, G , Liu, W D , Liu, H Q , Zhang, S B , Han, M K , Zhao, H L , Zou, X L , Duan, Y M , Ji, J X , Lan, T , Wang, T B , Zhang, J
in Confinement / Electron energy / Fusion reactors / Heat flux / Ion temperature / Plasmas (physics) / Rings (mathematics) / Temperature gradients / Tokamak devices / Turbulence
2020

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Edge Temperature Ring Oscillation Modulated by Turbulence Transition for Sustaining Stationary Improved Energy Confinement Plasmas
Edge Temperature Ring Oscillation Modulated by Turbulence Transition for Sustaining Stationary Improved Energy Confinement Plasmas
Paper

Edge Temperature Ring Oscillation Modulated by Turbulence Transition for Sustaining Stationary Improved Energy Confinement Plasmas

Liu, Y,
Qu, C M,
EAST Team,
Feng, X,
Ding, W X,
Liu, Z X,
Hu, G H,
Liu, Z Y,
Wang, M Y,
Wang, Y M,
Verdoolaege, G,
Liu, A D,
Wang, L,
Wang, S X,
H Li,
B Lv,
Zhong, X M,
Wang, Z X,
Mao, W Z,
Dong, J Q,
Zhou, C,
Li, Y Y,
Xie, J L,
Zhang, Q,
Zhuang, G,
Liu, W D,
Liu, H Q,
Zhang, S B,
Han, M K,
Zhao, H L,
Zou, X L,
Duan, Y M,
Ji, J X,
Lan, T,
Wang, T B,
Zhang, J
2020
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Overview
A reproducible stationary improved confinement mode (I-mode) has been achieved recently in the Experimental Advanced Superconducting Tokamak, featuring good confinement without particle transport barrier, which could be beneficial to solving the heat flux problem caused by edge localized modes (ELM) and the helium ash problem for future fusion reactors. The microscopic mechanism of sustaining stationary I-mode, based on the coupling between turbulence transition and the edge temperature oscillation, has been discovered for the first time. A radially localized edge temperature ring oscillation (ETRO) with azimuthally symmetric structure (\\(n=0\\),\\(m=0\\)) has been identified and it is caused by alternative turbulence transitions between ion temperature gradient modes (ITG) and trapped electron modes (TEM). The ITG-TEM transition is controlled by local electron temperature gradient and consistent with the gyrokinetic simulations. The self-organizing system consisting with ETRO, turbulence and transport transitions plays the key role in sustaining the I-mode confinement. These results provide a novel physics basis for accessing, maintaining and controlling stationary I-mode in the future.
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Publisher
Cornell University Library, arXiv.org
Subject

Confinement

/ Electron energy

/ Fusion reactors

/ Heat flux

/ Ion temperature

/ Plasmas (physics)

/ Rings (mathematics)

/ Temperature gradients

/ Tokamak devices

/ Turbulence

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