氧化物材料表面辐射激发过程的动力学

Q4 Physics and Astronomy
T. Tusseyev
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引用次数: 0

摘要

对实验数据的分析表明,金属氧化物中气体吸附和辐射缺陷积累的过程是相互关联的,很可能可以用等效动力学方程来描述。在这种情况下,分析了不同金属氧化物中辐射缺陷积累的动力学。所得方程用于分析:a)不同毒性分解物中放射性缺陷的积累动力学;b) 辐射结构的数据导致不同酶的大气中存在缺陷,以及吸收氧、氢和二氧化碳分子的动力学。这种分析的结果是系统化的,并以表格的形式给出。得出以下结论:1。辐射缺陷的量子产率随着加工温度的增长而单调增加,趋于一定的极限值。2.电离辐射对自由基的破坏常数也增加。3.不同氧化物中表面缺陷和体缺陷的数量之比可以按以下顺序排列:氧化硅>氧化铍>氧化铝。因此,通过能量强度创建吸收系统的最佳(方便)材料是二氧化硅,通过吸附效率创建吸收系统是氧化铍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Kinetics of radiation-stimulated processes on the surface of oxide materials
The analysis of the experimental data shows that the processes of gas adsorption and radiation defects accumulation in metal oxides correlate with each other and most likely can be described in terms of equivalent kinetic equations. Given this circumstance, the kinetics of accumulation of radiation defects in oxides of di ff erent metals was analyzed. The obtained equations were used to analyze: a) the kinetics of accumulationofradiationdefectsindi ff erentoxidecompounds; b)thedataonthedestructionofradiation-induceddefectsintheatmosphereofdi ff erentgases, andonthekineticsofabsorptionbyoxidesofoxygen, hydrogen, and carbon dioxide molecules. The results of such analysis are systematized and are given in the form of a table. The following conclusions were made: 1. The quantum yield of radiation defects increases monotonically with growth of the temperature of processing, tending to a certain limit value. 2. The constant of destruction of radicals from ionizing radiation increases as well. 3. The ratio of the number of surface and bulk defects in di ff erent oxides can be arranged in the following series: silicon oxide > beryllium oxide > aluminum oxide. Thus, the most optimal (convenient) material for creating absorbing systems by energy intensity is silicon dioxide, and by adsorption e ffi ciency is beryllium oxide.
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来源期刊
Eurasian Journal of Physics and Functional Materials
Eurasian Journal of Physics and Functional Materials Materials Science-Materials Science (miscellaneous)
CiteScore
1.10
自引率
0.00%
发文量
23
审稿时长
5 weeks
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