THE KINETICS OF RADIATION-INDUCED POINT DEFECT AGGREGATION AND METALLIC COLLOID FORMATION IN IONIC SOLIDS

机译：离子固体辐射诱导点缺陷聚集和金属胶体形成的动力学

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By definition, a metallic colloid is "a particle, which size is sufficiently small that there is at least a possibility that its properties will differ from those of the bulk material" [1]. The existence of metallic colloids in ionic crystals has been known for a long time [2-6]. Metallic colloids can be produced in ionic solids by a number of methods. 1) Additive coloration (thermochemical reduction), where a crystal is heated in the metal vapour at high temperature, so that the excess metal is introduced into the crystal. 2) Electrolytic coloration is carried out by applying an electric field (～100V/cm) at elevated temperatures. 3) Ionizing radiation, where conditions of colloid formation depend on both type of radiation and material. 4) Ion implantation.

机译：通过定义，金属胶体是“颗粒，其尺寸足够小，即至少可能其性质与散装材料的性质不同的可能性”[1]。在离子晶体中存在金属胶体的存在很长时间[2-6]。可以通过多种方法在离子固体中生产金属胶体。 1）添加性着色（热化学缩减），其中晶体在高温下在金属蒸汽中加热，使得过量的金属被引入晶体中。 2）通过在升高的温度下施加电场（〜100V / cm）来进行电解着色。 3）电离辐射，其中胶体形成的条件取决于两种辐射和材料。 4）离子植入。

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《NATO Advanced Study Institute on Radiation Effects in Solids》|2007年||共2页
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Eugene A. Kotomin; Anatoly I. Popov;
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中图分类放射性元素、放射化学;
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THE KINETICS OF RADIATION-INDUCED POINT DEFECT AGGREGATION AND METALLIC COLLOID FORMATION IN IONIC SOLIDS

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