Drift Mode Growth Rate and Associated Ion Thermal Transport in Reversed Magnetic Shear Tokamak Plasma

Chin. Phys. Lett.

2001, Vol. 18

Issue (5): 650-652 DOI:

Original Articles

Drift Mode Growth Rate and Associated Ion Thermal Transport in Reversed Magnetic Shear Tokamak Plasma

WANG Ai-Ke;QIU Xiao-Ming

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

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WANG Ai-Ke, QIU Xiao-Ming 2001 Chin. Phys. Lett. 18 650-652

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Abstract Drift mode linear growth rate and quasi-linear ion thermal transport in the reversed magnetic shear plasma are investigated by using the two-fluid theory, previously developed by Weiland and the Chalmers group [J. Nucl. Fusion, 29 (1989) 1810; ibid. 30 (1990) 983]. The theory is here extended to including both the radial electrical field shear
(d E_r/d_r) and the electron fluid velocity (V_e) in the sheared coordinate system. Here, V_e describes the coupling between the safety factor q and the E_r x B velocity V_E. Their influences on the growth rate and associated ion thermal transport are obtained numerically, In addition, the ion heat pinch in the reversed shear plasma is observed. Qualitatively, the present conclusions are in good agreement with the experimental results.

Keywords: 52.55.Fa 52.25.Fi 52.35.Kt

Published: 01 May 2001

PACS:	52.55.Fa	(Tokamaks, spherical tokamaks)
	52.25.Fi	(Transport properties)
	52.35.Kt	(Drift waves)

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https://cpl.iphy.ac.cn/ OR https://cpl.iphy.ac.cn/Y2001/V18/I5/0650

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