The spectral basis of optimal error field correction on DIII-D

C. Paz-Soldan; R. J. Buttery; A. M. Garofalo; J. M. Hanson; R. J. La Haye; M. J. Lanctot; J. K. Park; W. M. Solomon; E. J. Strait

doi:10.1088/0029-5515/54/7/073013

The spectral basis of optimal error field correction on DIII-D

C. Paz-Soldan, R. J. Buttery, A. M. Garofalo, J. M. Hanson, R. J. La Haye, M. J. Lanctot, J. K. Park, W. M. Solomon, E. J. Strait

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57 Scopus citations

Abstract

Experimental optimum error field correction (EFC) currents found in a wide breadth of dedicated experiments on DIII-D are shown to be consistent with the currents required to null the poloidal harmonics of the vacuum field which drive the kink mode near the plasma edge. This allows the identification of empirical metrics which predict optimal EFC currents with accuracy comparable to that of first-principles modelling which includes the ideal plasma response. While further metric refinements are desirable, this work suggests optimal EFC currents can be effectively fed-forward based purely on knowledge of the vacuum error field and basic equilibrium properties which are routinely calculated in real-time.

Original language	English (US)
Article number	073013
Journal	Nuclear Fusion
Volume	54
Issue number	7
DOIs	https://doi.org/10.1088/0029-5515/54/7/073013
State	Published - Jul 2014

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Condensed Matter Physics

Keywords

error field correction
kink mode
plasma response
resistive wall mode
tokamak

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10.1088/0029-5515/54/7/073013

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title = "The spectral basis of optimal error field correction on DIII-D",

abstract = "Experimental optimum error field correction (EFC) currents found in a wide breadth of dedicated experiments on DIII-D are shown to be consistent with the currents required to null the poloidal harmonics of the vacuum field which drive the kink mode near the plasma edge. This allows the identification of empirical metrics which predict optimal EFC currents with accuracy comparable to that of first-principles modelling which includes the ideal plasma response. While further metric refinements are desirable, this work suggests optimal EFC currents can be effectively fed-forward based purely on knowledge of the vacuum error field and basic equilibrium properties which are routinely calculated in real-time.",

keywords = "error field correction, kink mode, plasma response, resistive wall mode, tokamak",

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doi = "10.1088/0029-5515/54/7/073013",

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AU - Paz-Soldan, C.

AU - Buttery, R. J.

AU - Garofalo, A. M.

AU - Hanson, J. M.

AU - La Haye, R. J.

AU - Lanctot, M. J.

AU - Park, J. K.

AU - Solomon, W. M.

AU - Strait, E. J.

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AB - Experimental optimum error field correction (EFC) currents found in a wide breadth of dedicated experiments on DIII-D are shown to be consistent with the currents required to null the poloidal harmonics of the vacuum field which drive the kink mode near the plasma edge. This allows the identification of empirical metrics which predict optimal EFC currents with accuracy comparable to that of first-principles modelling which includes the ideal plasma response. While further metric refinements are desirable, this work suggests optimal EFC currents can be effectively fed-forward based purely on knowledge of the vacuum error field and basic equilibrium properties which are routinely calculated in real-time.

KW - error field correction

KW - kink mode

KW - plasma response

KW - resistive wall mode

KW - tokamak

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JO - Nuclear Fusion

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The spectral basis of optimal error field correction on DIII-D

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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