Topics in the theory of amorphous materials |
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| Authors: | D. A. Drabold |
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| Affiliation: | (1) Trinity College, Cambridge, CB2 1TQ, UK;(2) Clare Hall, Herschel Road, Cambridge, CB3 9AL, UK;(3) Dept. of Physics and Astronomy, Ohio University, Athens, Ohio 45701, USA |
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| Abstract: | ![]()
In this Colloquium, I describe some current frontiers in the physics of semiconducting amorphous materials and glasses, including a short, but self-contained discussion of techniques for creating computer models, among them the quench from the melt method, the Activation-Relaxation Technique, the decorate and relax method, and the experimentally constrained molecular relaxation scheme. A representative study of an interesting and important glass (amorphous GeSe3:Ag) is provided. This material is a fast-ion conductor and a serious candidate to replace current FLASH memory. Next, I discuss the effects of topological disorder on electronic states. By computing the decay of the density matrix in real space, and also computing well-localized Wannier functions, we close with a quantitative discussion of Kohn’s Principle of Nearsightedness in amorphous silicon. |
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| Keywords: | PACS 61.43.-j Disordered solids 61.43.Bn Structural modeling: serial-addition models, computer simulation 61.43.Fs Glasses 71.23.Cq Amorphous semiconductors, metallic glasses, glasses 71.23.An Theories and models localized states 66.30.Dn Theory of diffusion and ionic conduction in solids 71.23.-k Electronic structure of disordered solids |
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