Collisional boundary layer analysis for neoclassical toroidal plasma viscosity in tokamaks

K. C. Shaing; P. Cahyna; M. Becoulet; J. K. Park; S. A. Sabbagh; M. S. Chu

doi:10.1063/1.2969434

Collisional boundary layer analysis for neoclassical toroidal plasma viscosity in tokamaks

K. C. Shaing
, P. Cahyna
, M. Becoulet
, J. K. Park
, S. A. Sabbagh
, M. S. Chu

PPPL NSTX

Research output: Contribution to journal › Article › peer-review

70 Scopus citations

Abstract

It is demonstrated that the pitch angle integrals in the transport fluxes in the ν regime calculated in K. C. Shang [Phys. Plasmas 10, 1443 (2003)] are divergent as the trapped-circulating boundary is approached. Here, ν is the collision frequency. The origin of this divergence results from the logarithmic dependence in the bounce averaged radial drift velocity. A collisional boundary layer analysis is developed to remove the singularity. The resultant pitch angle integrals now include not only the original physics of the ν regime but also the boundary layer physics. The transport fluxes, caused by the particles inside the boundary layer, scale as √ν.

Original language	English (US)
Article number	082506
Journal	Physics of Plasmas
Volume	15
Issue number	8
DOIs	https://doi.org/10.1063/1.2969434
State	Published - 2008

All Science Journal Classification (ASJC) codes

Condensed Matter Physics

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10.1063/1.2969434

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title = "Collisional boundary layer analysis for neoclassical toroidal plasma viscosity in tokamaks",

abstract = "It is demonstrated that the pitch angle integrals in the transport fluxes in the ν regime calculated in K. C. Shang [Phys. Plasmas 10, 1443 (2003)] are divergent as the trapped-circulating boundary is approached. Here, ν is the collision frequency. The origin of this divergence results from the logarithmic dependence in the bounce averaged radial drift velocity. A collisional boundary layer analysis is developed to remove the singularity. The resultant pitch angle integrals now include not only the original physics of the ν regime but also the boundary layer physics. The transport fluxes, caused by the particles inside the boundary layer, scale as √ν.",

author = "Shaing, \{K. C.\} and P. Cahyna and M. Becoulet and Park, \{J. K.\} and Sabbagh, \{S. A.\} and Chu, \{M. S.\}",

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doi = "10.1063/1.2969434",

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AU - Shaing, K. C.

AU - Cahyna, P.

AU - Becoulet, M.

AU - Park, J. K.

AU - Sabbagh, S. A.

AU - Chu, M. S.

PY - 2008

Y1 - 2008

N2 - It is demonstrated that the pitch angle integrals in the transport fluxes in the ν regime calculated in K. C. Shang [Phys. Plasmas 10, 1443 (2003)] are divergent as the trapped-circulating boundary is approached. Here, ν is the collision frequency. The origin of this divergence results from the logarithmic dependence in the bounce averaged radial drift velocity. A collisional boundary layer analysis is developed to remove the singularity. The resultant pitch angle integrals now include not only the original physics of the ν regime but also the boundary layer physics. The transport fluxes, caused by the particles inside the boundary layer, scale as √ν.

AB - It is demonstrated that the pitch angle integrals in the transport fluxes in the ν regime calculated in K. C. Shang [Phys. Plasmas 10, 1443 (2003)] are divergent as the trapped-circulating boundary is approached. Here, ν is the collision frequency. The origin of this divergence results from the logarithmic dependence in the bounce averaged radial drift velocity. A collisional boundary layer analysis is developed to remove the singularity. The resultant pitch angle integrals now include not only the original physics of the ν regime but also the boundary layer physics. The transport fluxes, caused by the particles inside the boundary layer, scale as √ν.

UR - https://www.scopus.com/pages/publications/50849133875

UR - https://www.scopus.com/pages/publications/50849133875#tab=citedBy

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DO - 10.1063/1.2969434

M3 - Article

AN - SCOPUS:50849133875

SN - 1070-664X

VL - 15

JO - Physics of Plasmas

JF - Physics of Plasmas

IS - 8

M1 - 082506

ER -

Collisional boundary layer analysis for neoclassical toroidal plasma viscosity in tokamaks

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