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Hailin ZHAO (赵海林), Tao LAN (兰涛), Adi LIU (刘阿娣), Defeng KONG (孔德峰), Huagang SHEN (沈华刚), Jie WU (吴捷), Wandong LIU (刘万东), Changxuan YU (俞昌旋), Wei ZHANG (张炜), Guosheng XU (徐国盛), Baonian WAN (万宝年). Zonal flow energy ratio evolution during L-H and H-L transitions in EAST plasmas[J]. Plasma Science and Technology, 2017, 19(3): 35101-035101. DOI: 10.1088/2058-6272/19/3/035101
Citation: Hailin ZHAO (赵海林), Tao LAN (兰涛), Adi LIU (刘阿娣), Defeng KONG (孔德峰), Huagang SHEN (沈华刚), Jie WU (吴捷), Wandong LIU (刘万东), Changxuan YU (俞昌旋), Wei ZHANG (张炜), Guosheng XU (徐国盛), Baonian WAN (万宝年). Zonal flow energy ratio evolution during L-H and H-L transitions in EAST plasmas[J]. Plasma Science and Technology, 2017, 19(3): 35101-035101. DOI: 10.1088/2058-6272/19/3/035101
shu
    Abstract
  • The essential role of zonal flow in the L-H transition and the suppression of turbulence have been studied with a long range correlation technique using Langmuir probe arrays in EAST tokamak. Two toroidally localized probe arrays are used to measure the zonal flow during L-H transition and H-L back transition. The energy ratio of the low frequency zonal flow to the total drift wave turbulence is calculated. During ELM-free H mode, the energy ratio is higher than that in L mode, which reveals the important role of zonal flows in regulating turbulence amplitude in L-H transition.
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