Proposed Detection of Time Reversal Symmetry in Topological Surface States

TL;DR

This paper investigates how nonmagnetic impurities affect the local density of states on the surface of topological insulators, revealing signatures of time reversal symmetry through quasiparticle interference patterns observable by STM.

Contribution

It demonstrates that dips at backscattering wave vectors in LDOS spectra serve as signatures of time reversal symmetry in topological surface states, analyzed via T-matrix approach.

Findings

LDOS exhibits dip-hump structures with six-fold symmetry.

Backscattering wave vectors show local minima indicating absence of backscatterings.

Dips in LDOS spectra can be detected by scanning tunneling microscopy.

Abstract

By employing T-matrix approach, we investigate a nonmagnetic impurity located on the surface of three-dimensional topological insulators, where the time reversal symmetry is preserved. It is shown that the images of the local density of states (LDOS) around the single impurity have the dip-hump structures with six-fold symmetry at different bias voltages. The peaks are produced by quasiparticle interference while the local minima at the backscattering wave vectors are due to the absence of backscatterings. With increasing the bias voltage, the peaks and dips move forward to the location of the impurity. These dips at the backscattering wave vectors in the LDOS spectra can be regarded as a signature of the time reversal symmetry in the topological surface states, which could be observed by scanning tunneling microscopy.