A new core charge exchange recombination spectroscopy diagnostic has been installed in the ASDEX Upgrade tokamak that is capable of measuring the impurity ion temperature, toroidal rotation, and density on both the low field side (LFS) and high field side (HFS) of the plasma. The new system features 48 lines-of-sight (LOS) with a radial resolution that varies from ±2 cm on the LFS down to ±0.75 cm on the HFS and has sufficient signal to run routinely at 10 ms and for special circumstances down to 2.5 ms integration time. The LFS-HFS ion temperature profiles provide an additional constraint on the magnetic equilibrium reconstruction, and the toroidal rotation frequency profiles are of sufficiently high quality that information on the poloidal velocity can be extracted from the LFS-HFS asymmetry. The diagnostic LOS are coupled to two flexible-wavelength spectrometers such that complete LFS-HFS profiles from two separate impurities can be imaged simultaneously, albeit with reduced radial coverage. More frequently, the systems measure the same impurity providing very detailed information on the chosen species. Care has been taken to calibrate the systems as accurately as possible and to include in the data analysis any effects that could lead to spurious temperatures or rotations.

Mcdermott, R., Lebschy, A., Geiger, B., Bruhn, C., Cavedon, M., Dunne, M., et al. (2017). Extensions to the charge exchange recombination spectroscopy diagnostic suite at ASDEX Upgrade. REVIEW OF SCIENTIFIC INSTRUMENTS, 88(7) [10.1063/1.4993131].

Extensions to the charge exchange recombination spectroscopy diagnostic suite at ASDEX Upgrade

Cavedon M.;
2017

Abstract

A new core charge exchange recombination spectroscopy diagnostic has been installed in the ASDEX Upgrade tokamak that is capable of measuring the impurity ion temperature, toroidal rotation, and density on both the low field side (LFS) and high field side (HFS) of the plasma. The new system features 48 lines-of-sight (LOS) with a radial resolution that varies from ±2 cm on the LFS down to ±0.75 cm on the HFS and has sufficient signal to run routinely at 10 ms and for special circumstances down to 2.5 ms integration time. The LFS-HFS ion temperature profiles provide an additional constraint on the magnetic equilibrium reconstruction, and the toroidal rotation frequency profiles are of sufficiently high quality that information on the poloidal velocity can be extracted from the LFS-HFS asymmetry. The diagnostic LOS are coupled to two flexible-wavelength spectrometers such that complete LFS-HFS profiles from two separate impurities can be imaged simultaneously, albeit with reduced radial coverage. More frequently, the systems measure the same impurity providing very detailed information on the chosen species. Care has been taken to calibrate the systems as accurately as possible and to include in the data analysis any effects that could lead to spurious temperatures or rotations.
Articolo in rivista - Articolo scientifico
Plasma;
English
2017
88
7
073508
none
Mcdermott, R., Lebschy, A., Geiger, B., Bruhn, C., Cavedon, M., Dunne, M., et al. (2017). Extensions to the charge exchange recombination spectroscopy diagnostic suite at ASDEX Upgrade. REVIEW OF SCIENTIFIC INSTRUMENTS, 88(7) [10.1063/1.4993131].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/354850
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