Void superlattice formation as self-organization phenomemon. 1. Scaling   estimates

V.N. Kuzovkov; E.A. Kotomin; G.Zvejnieks; K.D. Li; L.M. Wang

arXiv:0901.3636·cond-mat.mtrl-sci·January 26, 2009

Void superlattice formation as self-organization phenomemon. 1. Scaling estimates

V.N. Kuzovkov, E.A. Kotomin, G.Zvejnieks, K.D. Li, L.M. Wang

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TL;DR

This paper analyzes void superlattice formation under irradiation, proposing a scaling relation for superlattice parameters based on dose rate and temperature, supported by experimental data and focusing on halogen gas voids in CaF2.

Contribution

It introduces a simple scaling estimate for void superlattice parameters as a function of irradiation conditions, enhancing understanding of self-organization in irradiated materials.

Findings

01

Proposed a relation for superlattice parameter depending on dose rate and temperature.

02

Validated the relation with existing experimental data.

03

Analyzed void formation in electron-irradiated CaF2.

Abstract

The literature on void superlattice formation observed under irradation of metals and insulators is analyzed with a special attention to the self-organization; a general scenario of this process is discussed. A simple relation for the superlattice parameter as a function of the dose rate and temperature is suggested, in a good agreement with existing experimental data. Special attention is paid to analysis of the halogen gas void formation in an electron-irradiated CaF2

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Taxonomy

TopicsGlass properties and applications · Luminescence Properties of Advanced Materials