On the use of rhodium mirrors for optical diagnostics in ITER

Autor: Maarten De Bock, Dieter Leichtle, Christian Linsmeier, S. Dickheuer, Philippe Mertens, A. Krimmer, Kim Liegeois, Andrey Litnovsky, Romain Boman, O. Marchuk, Marcin Rasinski, Yury Krasikov
Rok vydání: 2019
Předmět:
Zdroj: Fusion Engineering and Design. 146:2514-2518
ISSN: 0920-3796
Popis: The first mirrors of optical diagnostics in ITER are exposed to high radiation and fluxes of particles which escape the plasma, in the order of 1020 m−2s−1. At the position of the mirror, the flux may still reach about 1018 m−2s−1. First mirrors are thus the most vulnerable in-vessel optical components, being subject to erosion, esp. by fast charge-exchange neutrals, or to deposition of impurities at flux rates which can reach 0.05 nm/s. The material selected for the reflecting surface must combine a high optical reflectivity in a wide spectral range and a sufficient resistance to physical sputtering during normal operation and during mirror cleaning discharges, if any is installed. Rhodium (103Rh) was identified early as a possible or even promising candidate. It combines several attractive properties, for instance a mass which leads in most cases to low sputtering yields together with an optical reflectance ( R Rh ≈ 75 % ) which is much higher than of some other options. R Rh is insensitive to large temperature changes. Rhodium is fairly inert and its low oxidation is an appreciable advantage in case of steam ingress events. The core-plasma CXRS diagnostic in ITER (UPP 3) have now turned to Rh as a baseline. The aim is to procure monocrystalline rhodium (SC-Rh) to mitigate the increase of the diffuse reflection with the damage due to physical sputtering.
Databáze: OpenAIRE
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