Dimensionless Parameter Scaling of Intrinsic Torque in C-Mod Enhanced Confinement Plasmas

Rice, John E.; Cao, N.M.; Tala, T.; Chrystal, C.; Greenwald, M.J.; Hughes, Jerry W.; Marmar, E.S.; Reinke, M.L.; Rodriguez Fernandez, Pablo; Salmi, A.

Author(s)

Rice, John E.; Cao, N.M.; Tala, T.; Chrystal, C.; Greenwald, M.J.; ... Show more

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Abstract

A dimensionless parameter dependence study of intrinsic torque has been performed on a database of H- and I-mode plasmas from the Alcator C-Mod tokamak. The torque was determined by comparing intrinsic angular momentum density profiles just before and just after L-H and L-I transitions. The intrinsic torque has been found to scale as beta_N^1.5 rho_*^-1.0 nu_$^0.1, with the parameter ranges 0.3 < beta_N <1.5, 0.004 < rho_* < 0.011 and 0.04 < nu_* < 0.9. Comparison with results from other tokamaks suggests that the intrinsic torque should be normalized by some measure of the device size.

Description

Submitted for publication in Nuclear Fusion

Date issued

2020-09

URI

https://hdl.handle.net/1721.1/158569

Department

Massachusetts Institute of Technology. Plasma Science and Fusion Center

Journal

Nuclear Fusion

Publisher

IOP

Other identifiers

20ja087

DSpace@MIT