Conceptual Design of Electron Density Measurement System for DEMO-Relevant Helical Plasmas

Conceptual Design of Electron Density Measurement System for DEMO-Relevant Helical Plasmas

Electron density measurement remains indispensable to control fueling on a DEMO reactor. For steady-state operation of the DEMO reactor, density measurement should be highly reliable and accurate. A dispersion interferometer and a Faraday polarimeter are free from measurement errors caused by mechan...

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Veröffentlicht in:Plasma and Fusion Research 2012/02/24, Vol.7, pp.2402013-2402013
Hauptverfasser: AKIYAMA, Tsuyoshi, YASUHARA, Ryo, TOKUZAWA, Tokihiko, ISOBE, Mitsutaka, KAWAHATA, Kazuo, NAKAYAMA, Kazuya, OKAJIMA, Shigeki
Format: Artikel
Sprache:eng
Schlagworte:
Cotton-Mouton effect
Density measurement
Design engineering
dispersion interferometer
Dispersions
Electron density measurement
Faraday effect
Interferometers
Nd:YAG laser
Plasmas
polarimeter
Polarimeters
Reactors
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Zusammenfassung:Electron density measurement remains indispensable to control fueling on a DEMO reactor. For steady-state operation of the DEMO reactor, density measurement should be highly reliable and accurate. A dispersion interferometer and a Faraday polarimeter are free from measurement errors caused by mechanical vibrations. Hence combination of the two diagnostics yields a suitable system for density measurement on future steady-state fusion reactors. A wavelength around 1 µm is one of the desirable candidates in terms of the fringe shift and the Faraday rotation angle, the variety of optical components, and the efficiency of frequency doubling for the dispersion interferometer. This paper presents a conceptual design for the dispersion interferometer and Faraday polarimeter with a 1 µm light source.
ISSN:1880-6821
1880-6821
DOI:10.1585/pfr.7.2402013