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Bulk Signatures of Pressure-Induced Band Inversion and Topological Phase Transitions in Pb$_{1-x}$Sn$_x$Se

The characteristics of topological insulators are manifested in both their surface and bulk properties, but the latter remain to be explored. Here we report bulk signatures of pressure-induced band inversion and topological phase transitions in Pb$_{1-x}$Sn$_x$Se ($x=$0.00, 0.15, and 0.23). The results of infrared measurements as a function of pressure indicate the closing and the reopening of the band gap as well as a maximum in the free carrier spectral weight. The enhanced density of states near the band gap in the topological phase give rise to a steep interband absorption edge. The change of density of states also yields a maximum in the pressure dependence of the Fermi level. Thus our conclusive results provide a consistent picture of pressure-induced topological phase transitions and highlight the bulk origin of the novel properties in topological insulators.

preprint2014arXivOpen access
Xiaoxiang XiXu-Gang HeFen GuanZhenxian LiuR. D. ZhongJ. A. SchneelochT. S. LiuG. D. GuD. XuZ. ChenX. G. HongWei KuG. L. Carr
cond-mat.mtrl-sci
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Xiaoxiang XiXu-Gang HeFen GuanZhenxian LiuR. D. ZhongJ. A. SchneelochT. S. LiuG. D. GuD. XuZ. ChenX. G. HongWei KuG. L. Carr

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