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应用哈密顿动力学理论,提出了在径向电场存在情况下的新经典输运理论。在考虑了大电场影响的平台区和考虑了压缩因子的香蕉区后,得到了输运系数。这些因素在等离子体边界强烈地影响等离子体的输运,得到的有关压缩因子的定标与Shaing和Hazeltine的定标不同。在刮离层区计算了等离子体的旋转速度,其值与在TdeV托卡马克上的测量值很符合。
Applying Hamiltonian dynamics theory, a new classical transport theory in the presence of radial electric field is proposed. The transport coefficient was obtained after considering the influence of the large electric field and the banana zone considering the compression factor. These factors strongly influence the plasma transport at the plasma boundary, and the resulting calibration of the compression factor differs from that of Shaing and Hazeltine. The plasma rotation speed was calculated in the scratch-off zone, which is in good agreement with the measured value on the TdeV tokamak.