Evidence for massive bulk Dirac Fermions in Pb1-xSnxSe from Nernst and thermopower experiments

Abstract

The lead chalcogenides (Pb,Sn)Te and (Pb,Sn)Se are the first examples of topological crystalline insulators (TCI) predicted Fu,Hsieh (and confirmed Hasan,Story,Takahashi) to display topological surface Dirac states (SDS) that are protected by mirror symmetry. A starting premise Hsieh is that the SDS arise from bulk states describable as massive Dirac states Wallis,Svane, but this assumption is untested. Here we show that the thermoelectric response of the bulk states display features specific to the Dirac spectrum. We show that, in the quantum limit, the lowest Landau Level (LL) is singly spin-degenerate, whereas higher levels are doubly degenerate. The abrupt change in spin degeneracy leads to a large step-decrease in the thermopower Sxx. In the lowest LL, Sxx displays a striking linear increase vs. magnetic field. In addition, the Nernst signal undergoes an anomalous sign change when the bulk gap inverts at 180 K.