Drift Wave Test Particle Transport in Reversed Shear Profile | Zendy

W. Horton | Zendy; H.B. Park | Zendy; Jae-Min Kwon | Zendy; D. Stronzzi | Zendy; P.J. Morrison | Zendy; D.I. Choi | Zendy

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Drift Wave Test Particle Transport in Reversed Shear Profile

Author(s) -

W. Horton,

H.B. Park,

Jae-Min Kwon,

D. Stronzzi,

P.J. Morrison,

D.I. Choi

Publication year - 1998

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Reports

DOI - 10.2172/761830

Subject(s) - turbulence , electric field , shear (geology) , physics , test particle , mechanics , monotonic function , particle (ecology) , charged particle , classical mechanics , geology , mathematics , ion , mathematical analysis , quantum mechanics , petrology , oceanography

Drift wave maps, area preserving maps that describe the motion of charged particles in drift waves, are derived. The maps allow the integration of particle orbits on the long time scale needed to describe transport. Calculations using the drift wave maps show that dramatic improvement in the particle confinement, in the presence of a given level and spectrum of E x B turbulence, can occur for q(r)-profiles with reversed shear. A similar reduction in the transport, i.e. one that is independent of the turbulence, is observed in the presence of an equilibrium radial electric field with shear. The transport reduction, caused by the combined effects of radial electric field shear and both monotonic and reversed shear magnetic q-profiles, is also investigated

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