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Influence of the Flux Density, the Flux, and the Energy of Electrons on the Change in the Optical Properties of ZnO + K2SiO3 Coatings

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Abstract

The change in the diffusion reflection spectra ρλ and the total solar radiation absorption coefficient as by a reflecting heat-regulating coating (HRC) fabricated from ZnO pigment and K2SiO3 liquid potash glass in the People's Republic of China is investigated as a function of the flux density φ, the flux Φ, and the energy E of electrons. The established regularities in the changes of a s and ρλ under irradiation provide additional information on the formation of color centers (CC) in these systems and correlate with the results obtained previously for coatings fabricated in Russia.

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Authors and Affiliations

  1. Harbin Polytechnic Institute, Russia

    Suidun Van, Chundun Li, Shichuj He & Dechuan Jan

  2. Tomsk Polytechnic University, Russia

    M. M. Mikhailov

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  1. Suidun Van
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  2. Chundun Li
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  3. M. M. Mikhailov
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  4. Shichuj He
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  5. Dechuan Jan
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Van, S., Li, C., Mikhailov, M.M. et al. Influence of the Flux Density, the Flux, and the Energy of Electrons on the Change in the Optical Properties of ZnO + K2SiO3 Coatings. Russian Physics Journal 43, 735–742 (2000). https://doi.org/10.1023/A:1009423802157

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