The high-power helicon program at DIII-D: gearing up for first experiments

Helicon current drive, also called fast wave current drive in the lower hybrid range of frequencies, has long been regarded as a promising current drive tool for reactor grade plasmas. A newly installed MW-level system at DIII-D will be the first test of this technology in reactor-relevant plasmas,...

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Published in	Nuclear fusion Vol. 61; no. 11; pp. 116034 - 116046
Main Authors	Van Compernolle, B., Brookman, M.W., Moeller, C.P., Pinsker, R.I., Garofalo, A.M., O’Neill, R., Geng, D., Nagy, A., Squire, J.P., Schultz, K., Pawley, C., Ponce, D., Torrezan, A.C., Lohr, J., Coriton, B., Hinson, E., Kalling, R., Marinoni, A., Martin, E.H., Nguyen, R., Petty, C.C., Porkolab, M., Raines, T., Ren, J., Rost, C., Schmitz, O., Torreblanca, H., Wang, H.Q., Watkins, J., Zeller, K.
Format	Journal Article
Language	English
Published	United States IOP Publishing 01.11.2021 IOP Science
Subjects	70 PLASMA PHYSICS AND FUSION TECHNOLOGY current drive fast wave helicon reactor relevant
Online Access	Get full text
ISSN	0029-5515 1741-4326 1741-4326
DOI	10.1088/1741-4326/ac25c0

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Abstract	Helicon current drive, also called fast wave current drive in the lower hybrid range of frequencies, has long been regarded as a promising current drive tool for reactor grade plasmas. A newly installed MW-level system at DIII-D will be the first test of this technology in reactor-relevant plasmas, in the sense that full single-pass absorption is expected. A 30-module traveling wave antenna has been installed and optimized in-vessel in early 2020. The linear electromagnetic characteristics of the unloaded module array have been extensively tested both on the bench and in the vessel at instrumentation power levels. Excellent performance has been achieved, ~2% reflected power and ~1.5% dissipated power per module in air, in a 10 MHz band around 476 MHz. Stripline feeds on both ends of the antenna allow either co or counter current drive. The installation of a 1.2 MW klystron and associated high-power electronics was completed in Fall 2020. Commissioning of the antenna is ongoing. An important goal of this experiment is to validate the helicon current drive physics basis using an extensive set of new and upgraded diagnostics.
AbstractList	Helicon current drive, also called fast wave current drive in the lower hybrid range of frequencies, has long been regarded as a promising current drive tool for reactor grade plasmas. A newly installed MW-level system at DIII-D will be the first test of this technology in reactor-relevant plasmas, in the sense that full single-pass absorption is expected. A 30-module traveling wave antenna has been installed and optimized in-vessel in early 2020. The linear electromagnetic characteristics of the unloaded module array have been extensively tested both on the bench and in the vessel at instrumentation power levels. Excellent performance has been achieved, ~2% reflected power and ~1.5% dissipated power per module in air, in a 10 MHz band around 476 MHz. Stripline feeds on both ends of the antenna allow either co or counter current drive. The installation of a 1.2 MW klystron and associated high-power electronics was completed in Fall 2020. Commissioning of the antenna is ongoing. An important goal of this experiment is to validate the helicon current drive physics basis using an extensive set of new and upgraded diagnostics.
Author	Pinsker, R.I. Zeller, K. O’Neill, R. Petty, C.C. Brookman, M.W. Raines, T. Garofalo, A.M. Rost, C. Nguyen, R. Pawley, C. Torrezan, A.C. Nagy, A. Geng, D. Ren, J. Ponce, D. Kalling, R. Marinoni, A. Schmitz, O. Schultz, K. Martin, E.H. Hinson, E. Van Compernolle, B. Moeller, C.P. Porkolab, M. Torreblanca, H. Coriton, B. Squire, J.P. Lohr, J. Wang, H.Q. Watkins, J.
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SubjectTerms	70 PLASMA PHYSICS AND FUSION TECHNOLOGY current drive fast wave helicon reactor relevant
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Title	The high-power helicon program at DIII-D: gearing up for first experiments
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