Soft mode induced structural phase transition in Ba2ZnTeO6 at high pressure

Abstract

In this paper, we present a thorough investigation of vibrational, structural, and electronic properties of perovskite-type rhombohedral Ba2ZnTeO6 (BZTO) under systematic application of pressure. To carry out the analysis, we have performed pressure-dependent Raman spectroscopic measurements, synchrotron XRD, and density functional theory-based calculations. At ambient conditions, BZTO stabilizes in R3m space group, which under pressure undergoes a structural transition to a monoclinic phase with space group C2/m at around 18~GPa. In-depth Raman analysis reveals softening of a phonon mode Eg ( 28cm-1) leads to the structural phase transition. First principle DFT calculations also indicate that the doubly degenerate soft mode associated with the in-phase TeO6 octahedral rotation drives the structure to a lower symmetry phase C2/m.

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