Your search keyword '"Korsholm, S. B."' showing total 3 results

1. ITER collective Thomson scattering—Preparing to diagnose fusion-born alpha particles (invited).

Author

Korsholm, S. B., Chambon, A., Gonçalves, B., Infante, V., Jensen, T., Jessen, M., Klinkby, E. B., Larsen, A. W., Luis, R., Nietiadi, Y., Nonbøl, E., Rasmussen, J., Rechena, D., Salewski, M., Taormina, A., Vale, A., Varela, P., Sanchez, L., Ballester, R. M., and Udintsev, V.

Subjects

*THOMSON scattering, *ALPHA rays, *ION temperature, *VOLUME measurements, *SPATIAL resolution, *DATA analysis

Abstract

The ITER Collective Thomson scattering (CTS) diagnostic will measure the dynamics of fusion-born alpha particles in the burning ITER plasma by scattering a 1 MW 60 GHz gyrotron beam off fast-ion induced fluctuations in the plasma. The diagnostic will have seven measurement volumes across the ITER cross section and will resolve the alpha particle energies in the range from 300 keV to 3.5 MeV; importantly, the CTS diagnostic is the only diagnostic capable of measuring confined alpha particles for energies below ∼1.7 MeV and will also be sensitive to the other fast-ion populations. The temporal resolution is 100 ms, allowing the capture of dynamics on that timescale, and the typical spatial resolution is 10–50 cm. The development and design of the in-vessel and primary parts of the CTS diagnostic has been completed. This marks the beginning of a new phase of preparation to maximize the scientific benefit of the diagnostic, e.g., by investigating the capability to contribute to the determination of the fuel-ion ratio and the bulk ion temperature as well as integrating data analysis with other fast-ion and bulk-ion diagnostics. [ABSTRACT FROM AUTHOR]

Published

2022

2. Collective Thomson scattering diagnostic at Wendelstein 7-X.

Author

Moseev, D., Stejner, M., Stange, T., Abramovic, I., Laqua, H. P., Marsen, S., Schneider, N., Braune, H., Hoefel, U., Kasparek, W., Korsholm, S. B., Lechte, C., Leipold, F., Nielsen, S. K., Salewski, M., Rasmussen, J., Weißgerber, M., and Wolf, R. C.

Subjects

ION temperature, THOMSON scattering, TEMPERATURE measurements, CYCLOTRONS, LIGHT transmission

Abstract

A Collective Thomson Scattering (CTS) diagnostic is installed at Wendelstein 7-X for ion temperature measurements in the plasma core. The diagnostic utilizes 140 GHz gyrotrons usually used for electron cyclotron resonance heating (ECRH) as a source of probing radiation. The CTS diagnostic uses a quasi-optical transmission line covering a distance of over 40 m. The transmission line is shared between the ECRH system and the CTS diagnostic. Here we elaborate on the design, installation, and alignment of the CTS diagnostic and present the first measurements at Wendelstein 7-X. [ABSTRACT FROM AUTHOR]

Published

2019

3. Measurements of ion temperature and plasma hydrogenic composition by collective Thomson scattering in neutral beam heated discharges at TEXTOR.

Author

Stejner, M., Salewski, M., Korsholm, S. B., Bindslev, H., Delabie, E., Leipold, F., Meo, F., Michelsen, P. K., Moseev, D., Nielsen, S. K., Bürger, A., and de Baar, M.

Subjects

ION temperature, CYCLOTRONS, THOMSON scattering, NEUTRAL beams, COMPARATIVE studies, TEMPERATURE measurements

Abstract

A method is developed to perform plasma composition and ion temperature measurements across the plasma minor radius in TEXTOR based on ion cyclotron structures in collective Thomson scattering spectra. By gradually moving the scattering volume, we obtain measurements across the outer midplane of the plasma. Results for the ion temperature are compared with ion temperatures measured by active charge-exchange recombination spectroscopy. [ABSTRACT FROM AUTHOR]

Published

2013