Pinches-Induced Transport Reduction in Reversed Shear/Optimized Shear Tokamak Plasmas

Chin. Phys. Lett.

1999, Vol. 16

Issue (9): 662-664 DOI:

Original Articles

Pinches-Induced Transport Reduction in Reversed Shear/Optimized Shear Tokamak Plasmas

QIU Xiao-ming;WANG Ai-ke

Southwestern Institute of Physics, (P. O. Box 432), Chengdu 610041

Cite this article:

QIU Xiao-ming, WANG Ai-ke 1999 Chin. Phys. Lett. 16 662-664

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Abstract The analytical formulas for anomalous particle and ion thermal diffusivities, D^t_e and x^t_i, are derived on the basis of the two-fluid equations of our previous paper [Chin. Phys. Lett. 15 (1998) 721]. The two formulas involve five factors: (reversed/optimized) magnetic shear L_B( r ) , E x B sheared velocity V_E(r), where E is from the gradient of the ion pressure P_i, and the three ways of coupling between them, L^-1_B(dV_E/dr), L^-1_B V_E, and k .V_E , where k is the LB-dependent wavevector. It is found that the five factors can produce turbulent particle- and heat-pinch, i.e., D^t_e< 0 and x^t_i< 0, in the core region of tokamaks, and hence the effective particle and ion thermal diffusivities, D_e^eff and x_i^eff, reduce significantly in that region. The numerical results for D_e^eff and x_i^eff are in good agreement with experimental values.

Keywords: 52.55.Fa 52.55.Ez 52.25.Fi

Published: 01 September 1999

PACS:	52.55.Fa	(Tokamaks, spherical tokamaks)
	52.55.Ez	(Theta pinch)
	52.25.Fi	(Transport properties)

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https://cpl.iphy.ac.cn/ OR https://cpl.iphy.ac.cn/Y1999/V16/I9/0662

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