Thomson scattering measurements in the divertor region of the TCV Tokamak plasmas

In order to better study conventional and alternative divertor configurations, the TCV Tokamak was recently upgraded. In-vessel graphite baffles were installed in the TCV chamber to delimit a separate divertor chamber from the core that required enhanced diagnostic capabilities. To date, TCV's...

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Bibliographic Details
Published in:Journal of instrumentation 2019-10, Vol.14 (10), p.C10038-C10038
Main Authors: Blanchard, P., Andrebe, Y., Arnichand, H., Agnello, R., Antonioni, S., Couturier, S., Decker, J., D`Exaerde, T. De Kerchove, Duval, B.P., Furno, I., Isoz, P.-F., Lavanchy, P., Llobet, X., Marlétaz, B., Masur, J.
Format: Article
Language:English
Subjects:
Diagnostic systems
Electron energy
Laser beams
Plasma
Plasma dynamics
Plasmas
Spatial resolution
Thomson scattering
Tokamak devices
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Summary:In order to better study conventional and alternative divertor configurations, the TCV Tokamak was recently upgraded. In-vessel graphite baffles were installed in the TCV chamber to delimit a separate divertor chamber from the core that required enhanced diagnostic capabilities. To date, TCV's Thomson scattering diagnostic provided electron temperature and density profiles of the hot core and the pedestal of the plasma with an array of 96 polychromators. To study the new divertor region, an upgrade added 20 new polychromators specifically to diagnose the plasma in the relatively cold divertor region. New 4-channel polychromators were designed to provide Te measurements down to ∼1 eV with ne∼1.5×1019 m−3. Interference filters of only 1.9 nm FWHM were required to achieve this goal. Te and ne measurements from the TCV divertor region have been obtained for the first time. Specific diverted plasma discharges where the outer divertor leg is scanned in and out of the TS laser beam's path are used to demonstrate the diagnostic's new capabilities and potential with measurements of Te as low as 1.4 eV obtained for electron densities of 2×1018 m−3. The system's 16 mm integration length along the laser line is providing, for the first time, Te and ne profiles with sufficient spatial resolution across the divertor legs to resolve the divertor plasma dynamics.
ISSN:1748-0221
1748-0221
DOI:10.1088/1748-0221/14/10/C10038