Correlation between electron transport and shear alfvén activity in the national spherical torus experiment

D. Stutman; L. Delgado-Aparicio; N. Gorelenkov; M. Finkenthal; E. Fredrickson; S. Kaye; E. Mazzucato; K. Tritz

doi:10.1103/PhysRevLett.102.115002

Correlation between electron transport and shear alfvén activity in the national spherical torus experiment

D. Stutman
, L. Delgado-Aparicio
, N. Gorelenkov
, M. Finkenthal
, E. Fredrickson
, S. Kaye
, E. Mazzucato
, K. Tritz

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

82 Scopus citations

Abstract

We report the observation of a correlation between shear Alfvén eigenmode activity and electron transport in plasma regimes where the electron temperature gradient is flat, and thus the drive for temperature gradient microinstabilities is absent. Plasmas having rapid central electron transport show intense, broadband global Alfvén eigenmode (GAE) activity in the 0.5-1.1 MHz range, while plasmas with low transport are essentially GAE-free. The first theoretical assessment of a GAE-electron transport connection indicates that overlapping modes can resonantly couple to the bulk thermal electrons and induce their stochastic diffusion.

Original language	English (US)
Article number	115002
Journal	Physical review letters
Volume	102
Issue number	11
DOIs	https://doi.org/10.1103/PhysRevLett.102.115002
State	Published - Mar 18 2009

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.102.115002

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title = "Correlation between electron transport and shear alfv{\'e}n activity in the national spherical torus experiment",

abstract = "We report the observation of a correlation between shear Alfv{\'e}n eigenmode activity and electron transport in plasma regimes where the electron temperature gradient is flat, and thus the drive for temperature gradient microinstabilities is absent. Plasmas having rapid central electron transport show intense, broadband global Alfv{\'e}n eigenmode (GAE) activity in the 0.5-1.1 MHz range, while plasmas with low transport are essentially GAE-free. The first theoretical assessment of a GAE-electron transport connection indicates that overlapping modes can resonantly couple to the bulk thermal electrons and induce their stochastic diffusion.",

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AU - Stutman, D.

AU - Delgado-Aparicio, L.

AU - Gorelenkov, N.

AU - Finkenthal, M.

AU - Fredrickson, E.

AU - Kaye, S.

AU - Mazzucato, E.

AU - Tritz, K.

PY - 2009/3/18

Y1 - 2009/3/18

N2 - We report the observation of a correlation between shear Alfvén eigenmode activity and electron transport in plasma regimes where the electron temperature gradient is flat, and thus the drive for temperature gradient microinstabilities is absent. Plasmas having rapid central electron transport show intense, broadband global Alfvén eigenmode (GAE) activity in the 0.5-1.1 MHz range, while plasmas with low transport are essentially GAE-free. The first theoretical assessment of a GAE-electron transport connection indicates that overlapping modes can resonantly couple to the bulk thermal electrons and induce their stochastic diffusion.

AB - We report the observation of a correlation between shear Alfvén eigenmode activity and electron transport in plasma regimes where the electron temperature gradient is flat, and thus the drive for temperature gradient microinstabilities is absent. Plasmas having rapid central electron transport show intense, broadband global Alfvén eigenmode (GAE) activity in the 0.5-1.1 MHz range, while plasmas with low transport are essentially GAE-free. The first theoretical assessment of a GAE-electron transport connection indicates that overlapping modes can resonantly couple to the bulk thermal electrons and induce their stochastic diffusion.

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JO - Physical review letters

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ER -

Correlation between electron transport and shear alfvén activity in the national spherical torus experiment

Abstract

All Science Journal Classification (ASJC) codes

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