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Ab initio analysis of the effect of strain on the density of non-equilibrium electronic states and their role in the wave model of martensitic transformations
Authors
V. G. Chashchina
M. P. Kashchenko
N. A. Skorikova
Publication date
1 January 2008
Publisher
'Elsevier BV'
Abstract
In the wave model of martensitic transformations, the influence of the tensile strain on the creation of non-equilibrium electrons is crucial for the principle of wave amplification by stimulated emission of phonons from an inverted electronic population. By consideration of the strain-effect on the electronic energy spectrum it is shown that - for certain interval of finite strain - the density of active electronic non-equilibrium states in a strained lattice can satisfy the conditions for a phonon-maser effect. © 2007 Elsevier B.V. All rights reserved
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Last time updated on 29/10/2019