Confinement degradation by Alfvén-eigenmode induced fast-ion transport in steady-state scenario discharges

W. W. Heidbrink; J. R. Ferron; C. T. Holcomb; M. A. Van Zeeland; Xi Chen; C. M. Collins; A. Garofalo; X. Gong; B. A. Grierson; M. Podestà; L. Stagner; Y. Zhu

doi:10.1088/0741-3335/56/9/095030

Confinement degradation by Alfvén-eigenmode induced fast-ion transport in steady-state scenario discharges

W. W. Heidbrink, J. R. Ferron, C. T. Holcomb, M. A. Van Zeeland, Xi Chen, C. M. Collins, A. Garofalo, X. Gong, B. A. Grierson, M. Podestà, L. Stagner, Y. Zhu

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Abstract

Analysis of neutron and fast-ion D_α data from the DIII-D tokamak shows that Alfvén eigenmode activity degrades fast-ion confinement in many high β_N, high q_min, steady-state scenario discharges. (β_N is the normalized plasma pressure and q_min is the minimum value of the plasma safety factor.) Fast-ion diagnostics that are sensitive to the co-passing population exhibit the largest reduction relative to classical predictions. The increased fast-ion transport in discharges with strong AE activity accounts for the previously observed reduction in global confinement with increasing q_min; however, not all high q_min discharges show appreciable degradation. Two relatively simple empirical quantities provide convenient monitors of these effects: (1) an 'AE amplitude' signal based on interferometer measurements and (2) the ratio of the neutron rate to a zero-dimensional classical prediction.

Original language	English
Article number	095030
Journal	Plasma Physics and Controlled Fusion
Volume	56
Issue number	9
DOIs	https://doi.org/10.1088/0741-3335/56/9/095030
State	Published - Sep 1 2014
Externally published	Yes

Keywords

Alfvén waves
fast particle effects
fusion product effects
tokamaks

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10.1088/0741-3335/56/9/095030

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Heidbrink, W. W., Ferron, J. R., Holcomb, C. T., Van Zeeland, M. A., Chen, X., Collins, C. M., Garofalo, A., Gong, X., Grierson, B. A., Podestà, M., Stagner, L., & Zhu, Y. (2014). Confinement degradation by Alfvén-eigenmode induced fast-ion transport in steady-state scenario discharges. Plasma Physics and Controlled Fusion, 56(9), Article 095030. https://doi.org/10.1088/0741-3335/56/9/095030

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title = "Confinement degradation by Alfv{\'e}n-eigenmode induced fast-ion transport in steady-state scenario discharges",

abstract = "Analysis of neutron and fast-ion Dα data from the DIII-D tokamak shows that Alfv{\'e}n eigenmode activity degrades fast-ion confinement in many high βN, high qmin, steady-state scenario discharges. (βN is the normalized plasma pressure and qmin is the minimum value of the plasma safety factor.) Fast-ion diagnostics that are sensitive to the co-passing population exhibit the largest reduction relative to classical predictions. The increased fast-ion transport in discharges with strong AE activity accounts for the previously observed reduction in global confinement with increasing qmin; however, not all high qmin discharges show appreciable degradation. Two relatively simple empirical quantities provide convenient monitors of these effects: (1) an 'AE amplitude' signal based on interferometer measurements and (2) the ratio of the neutron rate to a zero-dimensional classical prediction.",

keywords = "Alfv{\'e}n waves, fast particle effects, fusion product effects, tokamaks",

author = "Heidbrink, {W. W.} and Ferron, {J. R.} and Holcomb, {C. T.} and {Van Zeeland}, {M. A.} and Xi Chen and Collins, {C. M.} and A. Garofalo and X. Gong and Grierson, {B. A.} and M. Podest{\`a} and L. Stagner and Y. Zhu",

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doi = "10.1088/0741-3335/56/9/095030",

language = "English",

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journal = "Plasma Physics and Controlled Fusion",

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Heidbrink, WW, Ferron, JR, Holcomb, CT, Van Zeeland, MA, Chen, X, Collins, CM, Garofalo, A, Gong, X, Grierson, BA, Podestà, M, Stagner, L & Zhu, Y 2014, 'Confinement degradation by Alfvén-eigenmode induced fast-ion transport in steady-state scenario discharges', Plasma Physics and Controlled Fusion, vol. 56, no. 9, 095030. https://doi.org/10.1088/0741-3335/56/9/095030

TY - JOUR

T1 - Confinement degradation by Alfvén-eigenmode induced fast-ion transport in steady-state scenario discharges

AU - Heidbrink, W. W.

AU - Ferron, J. R.

AU - Holcomb, C. T.

AU - Van Zeeland, M. A.

AU - Chen, Xi

AU - Collins, C. M.

AU - Garofalo, A.

AU - Gong, X.

AU - Grierson, B. A.

AU - Podestà, M.

AU - Stagner, L.

AU - Zhu, Y.

PY - 2014/9/1

Y1 - 2014/9/1

N2 - Analysis of neutron and fast-ion Dα data from the DIII-D tokamak shows that Alfvén eigenmode activity degrades fast-ion confinement in many high βN, high qmin, steady-state scenario discharges. (βN is the normalized plasma pressure and qmin is the minimum value of the plasma safety factor.) Fast-ion diagnostics that are sensitive to the co-passing population exhibit the largest reduction relative to classical predictions. The increased fast-ion transport in discharges with strong AE activity accounts for the previously observed reduction in global confinement with increasing qmin; however, not all high qmin discharges show appreciable degradation. Two relatively simple empirical quantities provide convenient monitors of these effects: (1) an 'AE amplitude' signal based on interferometer measurements and (2) the ratio of the neutron rate to a zero-dimensional classical prediction.

AB - Analysis of neutron and fast-ion Dα data from the DIII-D tokamak shows that Alfvén eigenmode activity degrades fast-ion confinement in many high βN, high qmin, steady-state scenario discharges. (βN is the normalized plasma pressure and qmin is the minimum value of the plasma safety factor.) Fast-ion diagnostics that are sensitive to the co-passing population exhibit the largest reduction relative to classical predictions. The increased fast-ion transport in discharges with strong AE activity accounts for the previously observed reduction in global confinement with increasing qmin; however, not all high qmin discharges show appreciable degradation. Two relatively simple empirical quantities provide convenient monitors of these effects: (1) an 'AE amplitude' signal based on interferometer measurements and (2) the ratio of the neutron rate to a zero-dimensional classical prediction.

KW - Alfvén waves

KW - fast particle effects

KW - fusion product effects

KW - tokamaks

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JO - Plasma Physics and Controlled Fusion

JF - Plasma Physics and Controlled Fusion

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ER -

Confinement degradation by Alfvén-eigenmode induced fast-ion transport in steady-state scenario discharges

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