Simulations of the lower-hybrid antenna in the Madison Symmetric Torus reversed-field pinch

Johan Carlsson; Michael Kaufman; John Goetz; David Smithe; Mark Thomas

doi:10.1088/0741-3335/56/5/055007

Simulations of the lower-hybrid antenna in the Madison Symmetric Torus reversed-field pinch

Johan Carlsson
, Michael Kaufman
, John Goetz
, David Smithe
, Mark Thomas

Fusion Technology

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

Abstract

Due to constraints inherent to a reversed-field pinch plasma configuration, an unusual launch structure-the interdigital line-was used for lower-hybrid current-drive experiments in the Madison Symmetric Torus. The antenna design and performance were analyzed using an array of codes (including RANT3D/AORSA1D-H, Microwave Studio and VORPAL). It was found that the voltage phasing was not the intended one. As a result, the parallel-wavenumber spectrum of the launched wave peaks at a value lower than desired, making the accessibility marginal. Further simulations demonstrated that the error can largely be corrected by either lowering the antenna operating frequency or shortening the length of the resonators.

Original language	English
Article number	055007
Journal	Plasma Physics and Controlled Fusion
Volume	56
Issue number	5
DOIs	https://doi.org/10.1088/0741-3335/56/5/055007
State	Published - May 2014

Keywords

interdigital line
lower-hybrid current drive
reversed-field pinch

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10.1088/0741-3335/56/5/055007

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abstract = "Due to constraints inherent to a reversed-field pinch plasma configuration, an unusual launch structure-the interdigital line-was used for lower-hybrid current-drive experiments in the Madison Symmetric Torus. The antenna design and performance were analyzed using an array of codes (including RANT3D/AORSA1D-H, Microwave Studio and VORPAL). It was found that the voltage phasing was not the intended one. As a result, the parallel-wavenumber spectrum of the launched wave peaks at a value lower than desired, making the accessibility marginal. Further simulations demonstrated that the error can largely be corrected by either lowering the antenna operating frequency or shortening the length of the resonators.",

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author = "Johan Carlsson and Michael Kaufman and John Goetz and David Smithe and Mark Thomas",

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AU - Carlsson, Johan

AU - Kaufman, Michael

AU - Goetz, John

AU - Smithe, David

AU - Thomas, Mark

PY - 2014/5

Y1 - 2014/5

N2 - Due to constraints inherent to a reversed-field pinch plasma configuration, an unusual launch structure-the interdigital line-was used for lower-hybrid current-drive experiments in the Madison Symmetric Torus. The antenna design and performance were analyzed using an array of codes (including RANT3D/AORSA1D-H, Microwave Studio and VORPAL). It was found that the voltage phasing was not the intended one. As a result, the parallel-wavenumber spectrum of the launched wave peaks at a value lower than desired, making the accessibility marginal. Further simulations demonstrated that the error can largely be corrected by either lowering the antenna operating frequency or shortening the length of the resonators.

AB - Due to constraints inherent to a reversed-field pinch plasma configuration, an unusual launch structure-the interdigital line-was used for lower-hybrid current-drive experiments in the Madison Symmetric Torus. The antenna design and performance were analyzed using an array of codes (including RANT3D/AORSA1D-H, Microwave Studio and VORPAL). It was found that the voltage phasing was not the intended one. As a result, the parallel-wavenumber spectrum of the launched wave peaks at a value lower than desired, making the accessibility marginal. Further simulations demonstrated that the error can largely be corrected by either lowering the antenna operating frequency or shortening the length of the resonators.

KW - interdigital line

KW - lower-hybrid current drive

KW - reversed-field pinch

UR - https://www.scopus.com/pages/publications/84899414829

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DO - 10.1088/0741-3335/56/5/055007

M3 - Article

AN - SCOPUS:84899414829

SN - 0741-3335

VL - 56

JO - Plasma Physics and Controlled Fusion

JF - Plasma Physics and Controlled Fusion

IS - 5

M1 - 055007

ER -

Simulations of the lower-hybrid antenna in the Madison Symmetric Torus reversed-field pinch

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