Self-Organized Criticality Processes in HL-1M Tokamak Plasma
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Abstract
We study the dynamics of laminar time between successive bursts in anomalous particle flux measured at the HL-1M tokamak plasma edge. The results reveal that the flux fluctuations are self-similar in a narrow range of time scales and that their probability distribution function is not Gaussian. These properties are not consistent with those predicted by self-organized criticality (SOC) models as well as the running sand-pile SOC model developed by Hwa and Kardar.
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HUANG Yuan, QIU Xiao-Ming, DING Xuan-Tong, WANG En-Yao. Self-Organized Criticality Processes in HL-1M Tokamak Plasma[J]. Chin. Phys. Lett., 2003, 20(1): 87-89.
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HUANG Yuan, QIU Xiao-Ming, DING Xuan-Tong, WANG En-Yao. Self-Organized Criticality Processes in HL-1M Tokamak Plasma[J]. Chin. Phys. Lett., 2003, 20(1): 87-89.
|
HUANG Yuan, QIU Xiao-Ming, DING Xuan-Tong, WANG En-Yao. Self-Organized Criticality Processes in HL-1M Tokamak Plasma[J]. Chin. Phys. Lett., 2003, 20(1): 87-89.
|
HUANG Yuan, QIU Xiao-Ming, DING Xuan-Tong, WANG En-Yao. Self-Organized Criticality Processes in HL-1M Tokamak Plasma[J]. Chin. Phys. Lett., 2003, 20(1): 87-89.
|
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