Induced optical absorption of silicate glasses due to gamma irradiation at high temperatures

    Authors

    A. Gusarov; S. Huysmans; F. Berghmans; L. Glebova; L. Glebov;E. R. Hodgson

    Comments

    Authors: contact us about adding a copy of your work at STARS@ucf.edu

    Abbreviated Journal Title

    Fusion Eng. Des.

    Keywords

    ITER; High temperature irradiation; Silicate glass; Radiation-induced; transmission degradation; Annealing; TRANSMISSION SYSTEMS; NEUTRON-IRRADIATION; DIAGNOSTIC WINDOWS; QUARTZ; GLASS; KU1 QUARTZ; RADIOLUMINESCENCE; ITER; SIO2; Nuclear Science & Technology

    Abstract

    Gamma radiation-induced optical absorption in 75SiO(2)-22Na(2)O-3CaO (Wt.%) multi-component glass and in the same glass additionally doped with 0.05 wt.% CeO(2) has been studied, with irradiations Performed at 70,200,and 350 C,25 kGy/h up to a dose of 0.6 MGy. For the undoped glass irradiation at 70 degrees C produces strong optical absorption from 700 nm down to the UV. Irradiation at 200 degrees C gives a lower level of optical absorption with a similar band composition. No induced optical absorption has been detected after irradiation at 350 degrees C. Annealing at 200 degrees C for 24 h completely suppresses the induced optical absorption. Introduction of cerium increases the level of induced absorption in the UV range for irradiation at 70 degrees C. and also creates bands stable Up to 350 degrees C. The results show that silica and sapphire. which are considered as main candidate materials for ITER diagnostic windows and other optical components, can potentially be complemented with multi-component silicate glasses. These materials may allow one to control the radioluminescence, and in addition provide a range of refractive indices required for achromatic lenses. (C) 2009 Elsevier B.V. All rights reserved.

    Journal Title

    Fusion Engineering and Design

    Volume

    85

    Issue/Number

    1

    Publication Date

    1-1-2010

    Document Type

    Article

    Language

    English

    First Page

    1

    Last Page

    6

    WOS Identifier

    WOS:000274284900001

    ISSN

    0920-3796

    Share

    COinS