Development of Glass-Tube-Pair Type Doppler Probe Array for 1D Profile Measurement of Two Component Ion-Flow Vector

Development of Glass-Tube-Pair Type Doppler Probe Array for 1D Profile Measurement of Two Component Ion-Flow Vector

We developed a new glass-tube-pair type Doppler probe array for 1D ion velocity vector and temperature measurement. It needs just two parallel glass-tube insertion, realizing low plasma perturbation and 1D ion flow vector measurement on a single discharge. Using four mirrors and optical fibers for o...

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Veröffentlicht in:Plasma and Fusion Research 2021/06/07, Vol.16, pp.1202078-1202078
Hauptverfasser: SOMEYA, Ryo, TANAKA, Haruaki, FUNATO, Yugo, CAI, Yunhan, AKIMITSU, Moe, TANABE, Hiroshi, ONO, Yasushi
Format: Artikel
Sprache:eng
Schlagworte:
Arrays
Discharge
Doppler spectroscopy
ion flow measurement
Ion velocity
Light emission
magnetic reconnection
Optical fibers
outflow
Perturbation
Profile measurement
Temperature measurement
tokamak merging
Tubes
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Beschreibung
Zusammenfassung:We developed a new glass-tube-pair type Doppler probe array for 1D ion velocity vector and temperature measurement. It needs just two parallel glass-tube insertion, realizing low plasma perturbation and 1D ion flow vector measurement on a single discharge. Using four mirrors and optical fibers for one measurement point, this system can measure ion local light emissions of each measurement volume from four different directions, enabling us to measure local ion flow vector and temperature. All set of mirrors and optical fibers are aligned in the two parallel glass tubes for 1D measurement by a single discharge. This system measured successfully ion outflow speed of two merging tokamak plasmas, about 80% of poloidal Alfvén speed in agreement with recent reconnection experiments and theory.
ISSN:1880-6821
1880-6821
DOI:10.1585/pfr.16.1202078