First-principle Calculations of Electron-Phonon Interactions in AIIBIVCV2 Crystals
Abstract
Ab-initio probabilities of phonon-assisted intervalley scattering of electrons in the conduction bands of ternary chalcopyrite compounds ZnSiP2 and ZnGeP2 between the central minima and the lowest lateral minima (valleys) at T and N points have been calculated using the density functional theory. The equilibrium parameters of crystal structures, spectra of electrons and phonons are calculated self-consistently and are in fairly good agreement with the experiment and available theoretical calculations. The electron-phonon coupling constants with short-wave (inter-valley) phonons in the chalcopyrite phosphides are close to their values in Si, Ge and in binary analog GaP.
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