Finite pressure effects on reversed shear Alfvén eigenmodes

G. J. Kramer; N. N. Gorelenkov; R. Naziklan; C. Z. Cheng

doi:10.1088/0741-3335/46/11/L01

Finite pressure effects on reversed shear Alfvén eigenmodes

G. J. Kramer
, N. N. Gorelenkov
, R. Naziklan
, C. Z. Cheng

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

45 Scopus citations

Abstract

The inclusion of finite pressure in ideal magnetohydrodynamic theory can explain the reversed magnetic shear Alfvén eigenmodes (RSAE) (or Alfvén cascades) that have been observed in several large tokamaks without the need to invoke an energetic particle mechanism for the existence of these modes. The chirping of the RSAE is caused by changes in the minimum of the magnetic safety factor, q_min, while finite pressure effects explain the observed non-zero minimum frequency of the RSAE when q_min has a rational value. Finite pressure effects also play a dominant role in the existence of the downward chirping RSAE branch.

Original language	English (US)
Pages (from-to)	L23-L29
Journal	Plasma Physics and Controlled Fusion
Volume	46
Issue number	11
DOIs	https://doi.org/10.1088/0741-3335/46/11/L01
State	Published - Nov 2004

All Science Journal Classification (ASJC) codes

Nuclear Energy and Engineering
Condensed Matter Physics

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10.1088/0741-3335/46/11/L01

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title = "Finite pressure effects on reversed shear Alfv{\'e}n eigenmodes",

abstract = "The inclusion of finite pressure in ideal magnetohydrodynamic theory can explain the reversed magnetic shear Alfv{\'e}n eigenmodes (RSAE) (or Alfv{\'e}n cascades) that have been observed in several large tokamaks without the need to invoke an energetic particle mechanism for the existence of these modes. The chirping of the RSAE is caused by changes in the minimum of the magnetic safety factor, qmin, while finite pressure effects explain the observed non-zero minimum frequency of the RSAE when qmin has a rational value. Finite pressure effects also play a dominant role in the existence of the downward chirping RSAE branch.",

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AU - Kramer, G. J.

AU - Gorelenkov, N. N.

AU - Naziklan, R.

AU - Cheng, C. Z.

PY - 2004/11

Y1 - 2004/11

N2 - The inclusion of finite pressure in ideal magnetohydrodynamic theory can explain the reversed magnetic shear Alfvén eigenmodes (RSAE) (or Alfvén cascades) that have been observed in several large tokamaks without the need to invoke an energetic particle mechanism for the existence of these modes. The chirping of the RSAE is caused by changes in the minimum of the magnetic safety factor, qmin, while finite pressure effects explain the observed non-zero minimum frequency of the RSAE when qmin has a rational value. Finite pressure effects also play a dominant role in the existence of the downward chirping RSAE branch.

AB - The inclusion of finite pressure in ideal magnetohydrodynamic theory can explain the reversed magnetic shear Alfvén eigenmodes (RSAE) (or Alfvén cascades) that have been observed in several large tokamaks without the need to invoke an energetic particle mechanism for the existence of these modes. The chirping of the RSAE is caused by changes in the minimum of the magnetic safety factor, qmin, while finite pressure effects explain the observed non-zero minimum frequency of the RSAE when qmin has a rational value. Finite pressure effects also play a dominant role in the existence of the downward chirping RSAE branch.

UR - https://www.scopus.com/pages/publications/9744261729

UR - https://www.scopus.com/pages/publications/9744261729#tab=citedBy

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M3 - Article

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SN - 0741-3335

VL - 46

SP - L23-L29

JO - Plasma Physics and Controlled Fusion

JF - Plasma Physics and Controlled Fusion

IS - 11

ER -

Finite pressure effects on reversed shear Alfvén eigenmodes

Abstract

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