Optical response of edge modes in time-reversal symmetric topological superconductors

Abstract

Topological superconductors and Majorana edge modes at their boundaries have been theoretically predicted. However, their experimental observation remains controversial. Recent theoretical studies suggest that chiral Majorana edge modes exhibit distinct spatially-resolved optical conductivity compared to chiral Dirac edge modes. In this work, we investigate the optical conductivity and spatially-resolved optical conductivity induced by Majorana edge modes and Dirac edge modes under time-reversal symmetry and crystalline symmetry. We conduct numerical calculations and analytical calculations with edge effective theory for two-dimensional Z2 topological insulators, strong topological superconductors, and topological crystalline superconductors. Our results show that even under time-reversal symmetry and crystalline symmetry, Majorana edge modes and Dirac edge modes exhibit different optical responses.

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