Odd-Parity Pairing and Topological Superconductivity in a Strongly Spin-Orbit Coupled Semiconductor

Author(s)

Sasaki, Satoshi; Ren, Zhi; Taskin, A. A.; Segawa, Kouji; Fu, Liang; Ando, Yoichi; ... Show more Show less

Abstract

The existence of topological superconductors preserving time-reversal symmetry was recently predicted, and they are expected to provide a solid-state realization of itinerant massless Majorana fermions and a route to topological quantum computation. Their first likely example, Cu[subscript x]Bi[subscript 2]Se[subscript 3], was discovered last year, but the search for new materials has so far been hindered by the lack of a guiding principle. Here, we report point-contact spectroscopy experiments suggesting that the low-carrier-density superconductor Sn[subscript 1-x]In[subscript x]Te is accompanied by surface Andreev bound states which, with the help of theoretical analysis, would give evidence for odd-parity pairing and topological superconductivity. The present and previous finding of possible topological superconductivity in Sn[subscript 1-x]In[subscript x]Te and Cu[subscript x]Bi[subscript 2]Se[subscript 3] suggests that odd-parity pairing favored by strong spin-orbit coupling is likely to be a common underlying mechanism for materializing topological superconductivity.

Date issued

2012-11

URI

http://hdl.handle.net/1721.1/77180

Department

Massachusetts Institute of Technology. Department of Physics

Journal

Physical Review Letters

Publisher

American Physical Society

Citation

Sasaki, Satoshi et al. “Odd-Parity Pairing and Topological Superconductivity in a Strongly Spin-Orbit Coupled Semiconductor.” Physical Review Letters 109.21 (2012). © 2012 American Physical Society

Version: Final published version

ISSN

0031-9007

1079-7114