Effect of hydrostatic pressure on transport in the topological insulator Bi2Te2Se
Abstract
The Hall coefficient RH and resistivity of the topological insulator Bi2Te2Se display a number of puzzling features vs. temperature T. We propose a model that describes well the non-monotonic variation of RH(T). A key feature of the model is a chemical potential that is weakly T-dependent. From the fit to the model, we infer a "transport" gap T of 50 mV. We find that hydrostatic pressure P (0-27 kbar) has a pronounced effect on both RH and . We show that these changes arise from decreases in both T and the hole effective mass under pressure.
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