Эффективные сцинтилляционные материалы на основе твердых растворов ZnS1–xTex и пер­спек­ти­вы их применения

Эффективные сцинтилляционные материалы на основе твердых растворов ZnS1–xTex и пер­спек­ти­вы их применения

The optimal technological regime of formation ZnS1–xTex solid solution at spacing 0,0≤х≤0,1 has been determined, and has been shown that fritting in hydrogen atmosphere results in more rapid reaction in comparison to argon due to chemical-thermal etching of the ZnO layer out. Further annealing in th...

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Bibliographic Details
Date:2011
Main Authors: Katrunov, K. A., Lalayantz, A. I., Gal’chinetskiy, L. P., Starzhinskiy, N. V., Zhukov, A. V., Galkin, S. N., Brilyova, Ye. Yu., Zenya, I. M., Trubaeva, O. G.
Format: Article
Language:Ukrainian
Published: PE "Politekhperiodika", Book and Journal Publishers 2011
Subjects:
константы равновесия
сцинтилляторы
твердый раствор ZnS1–xTex
рентгенолюминисценция
послесвечение
Online Access:https://www.tkea.com.ua/index.php/journal/article/view/TKEA2011.1-2.60
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Journal Title:Technology and design in electronic equipment

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Technology and design in electronic equipment
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Summary:The optimal technological regime of formation ZnS1–xTex solid solution at spacing 0,0≤х≤0,1 has been determined, and has been shown that fritting in hydrogen atmosphere results in more rapid reaction in comparison to argon due to chemical-thermal etching of the ZnO layer out. Further annealing in the inert Ar atmosphere leads to the increase of the light output, to the intensive emission band formation and causes afterglow level reduction and the crystalline lattice rearrangement.

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