Fermiology of the low carrier density superconductor Tl-doped PbTe, and its non-superconducting analog, Na-doped PbTe
Abstract
PbTe is a narrow band gap semiconductor, which can be electron- or hole-doped, obtaining typical carrier densities of the order of 1x1020cm-3. The only impurity known to produce superconductivity in this host material is Tl, resulting in a maximum critical temperature of 1.5K - an order of magnitude higher that the Tc observed in similar low carrier density semiconductors. In this work we performed a full Fermi surface characterization of Pb1-xTlxTe, as well as its non-superconducting analog, Pb1-xNaxTe, via Shubnikov de Haas oscillations in magnetotransport, for magnetic fields up to 35T (DC). Our results show that beyond a critical impurity concentration close to the emergence of superconductivity, there are clear differences in the normal-state carriers. In non-superconducting Pb1-xNaxTe, all carriers reside at four ellipsoidal pockets of the Fermi surface, while in superconducting Pb1-xTlxTe, there is an additional set of carriers, consistent with incoherent resonant impurity levels. The presence or absence of these states at or near the Fermi energy is intimately connected to the presence or absence of superconductivity in doped PbTe.
- Publication:
-
APS March Meeting Abstracts
- Pub Date:
- 2016
- Bibcode:
- 2016APS..MAR.H8014G