Mitigation of Alfvén activity in a tokamak by externally applied static 3d fields

A. Bortolon; W. W. Heidbrink; G. J. Kramer; J. K. Park; E. D. Fredrickson; J. D. Lore; M. Podestà

doi:10.1103/PhysRevLett.110.265008

Mitigation of Alfvén activity in a tokamak by externally applied static 3d fields

A. Bortolon, W. W. Heidbrink, G. J. Kramer, J. K. Park, E. D. Fredrickson, J. D. Lore, M. Podestà

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Abstract

The application of static magnetic field perturbations to a tokamak plasma is observed to alter the dynamics of high-frequency bursting Alfvén modes that are driven unstable by energetic ions. In response to perturbations with an amplitude of δB/B∼0.01 at the plasma boundary, the mode amplitude is reduced, the bursting frequency is increased, and the frequency chirp is smaller. For modes of weaker bursting character, the magnetic perturbation induces a temporary transition to a saturated continuous mode. Calculations of the perturbed distribution function indicate that the 3D perturbation affects the orbits of fast ions that resonate with the bursting modes. The experimental evidence represents an important demonstration of the possibility of controlling fast-ion instabilities through "phase-space engineering" of the fast-ion distribution function, by means of externally applied perturbation fields.

Original language	English (US)
Article number	265008
Journal	Physical review letters
Volume	110
Issue number	26
DOIs	https://doi.org/10.1103/PhysRevLett.110.265008
State	Published - Jun 28 2013

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.110.265008

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title = "Mitigation of Alfv{\'e}n activity in a tokamak by externally applied static 3d fields",

abstract = "The application of static magnetic field perturbations to a tokamak plasma is observed to alter the dynamics of high-frequency bursting Alfv{\'e}n modes that are driven unstable by energetic ions. In response to perturbations with an amplitude of δB/B∼0.01 at the plasma boundary, the mode amplitude is reduced, the bursting frequency is increased, and the frequency chirp is smaller. For modes of weaker bursting character, the magnetic perturbation induces a temporary transition to a saturated continuous mode. Calculations of the perturbed distribution function indicate that the 3D perturbation affects the orbits of fast ions that resonate with the bursting modes. The experimental evidence represents an important demonstration of the possibility of controlling fast-ion instabilities through {"}phase-space engineering{"} of the fast-ion distribution function, by means of externally applied perturbation fields.",

author = "A. Bortolon and Heidbrink, \{W. W.\} and Kramer, \{G. J.\} and Park, \{J. K.\} and Fredrickson, \{E. D.\} and Lore, \{J. D.\} and M. Podest{\`a}",

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doi = "10.1103/PhysRevLett.110.265008",

language = "English (US)",

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T1 - Mitigation of Alfvén activity in a tokamak by externally applied static 3d fields

AU - Bortolon, A.

AU - Heidbrink, W. W.

AU - Kramer, G. J.

AU - Park, J. K.

AU - Fredrickson, E. D.

AU - Lore, J. D.

AU - Podestà, M.

PY - 2013/6/28

Y1 - 2013/6/28

N2 - The application of static magnetic field perturbations to a tokamak plasma is observed to alter the dynamics of high-frequency bursting Alfvén modes that are driven unstable by energetic ions. In response to perturbations with an amplitude of δB/B∼0.01 at the plasma boundary, the mode amplitude is reduced, the bursting frequency is increased, and the frequency chirp is smaller. For modes of weaker bursting character, the magnetic perturbation induces a temporary transition to a saturated continuous mode. Calculations of the perturbed distribution function indicate that the 3D perturbation affects the orbits of fast ions that resonate with the bursting modes. The experimental evidence represents an important demonstration of the possibility of controlling fast-ion instabilities through "phase-space engineering" of the fast-ion distribution function, by means of externally applied perturbation fields.

AB - The application of static magnetic field perturbations to a tokamak plasma is observed to alter the dynamics of high-frequency bursting Alfvén modes that are driven unstable by energetic ions. In response to perturbations with an amplitude of δB/B∼0.01 at the plasma boundary, the mode amplitude is reduced, the bursting frequency is increased, and the frequency chirp is smaller. For modes of weaker bursting character, the magnetic perturbation induces a temporary transition to a saturated continuous mode. Calculations of the perturbed distribution function indicate that the 3D perturbation affects the orbits of fast ions that resonate with the bursting modes. The experimental evidence represents an important demonstration of the possibility of controlling fast-ion instabilities through "phase-space engineering" of the fast-ion distribution function, by means of externally applied perturbation fields.

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Mitigation of Alfvén activity in a tokamak by externally applied static 3d fields

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