Pressure-induced phonon-freezing in the ZnBeSe alloy: a study via the percolation mesoscope

Abedalhasan Breidi; Abhay Shukla; Andrei Viktor Postnikov; Chandrabhas Narayana; Fouad El Haj Hassan; Franciszek Firszt; Gopal K. Pradhan; Jihane Souhabi; Olivier Pages; Sudip K. Deb

arxiv: 0910.5175 · v2 · submitted 2009-10-27 · ❄️ cond-mat.mtrl-sci · cond-mat.dis-nn· cond-mat.other

Pressure-induced phonon-freezing in the ZnBeSe alloy: a study via the percolation mesoscope

Gopal K. Pradhan , Chandrabhas Narayana , Olivier Pages , Abedalhasan Breidi , Jihane Souhabi , Andrei Viktor Postnikov , Fouad El Haj Hassan , Sudip K. Deb

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Franciszek Firszt Wojtek Paszkowicz Abhay Shukla

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classification ❄️ cond-mat.mtrl-sci cond-mat.dis-nncond-mat.other

keywords be-sepercolationdoubletmesoscopephononpressurescalealloy

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We use the 1-bond -> 2-phonon percolation doublet of zincblende alloys as a mesoscope for an unusual insight into their phonon behavior under pressure. We focus on (Zn,Be)Se and show by Raman scattering that the original Be-Se doublet at ambient pressure, of the stretching-bending type, turns into a pure-bending singlet at the approach of the high-pressure ZnSe-like rocksalt phase, an unnatural one for the Be-Se bonds. The freezing of the Be-Se stretching mode is discussed within the scope of the percolation model (mesoscopic scale), with ab initio calculations in support (microscopic scale).

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Pressure-induced phonon-freezing in the ZnBeSe alloy: a study via the percolation mesoscope

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