Bulk-Vortex Correspondence of Higher-Order Topological Superconductors

Abstract

Vortices in chiral topological superconductors are known for trapping Majorana zero modes as a signature response to their bulk-state topologies. In this work, we establish a similar bulk-vortex correspondence for two-dimensional Cn-protected class D higher-order topological superconductors, in which a quantum vortex will universally trap a pair of Cn-protected Majorana bound states with z-directional angular momenta Jz=0 and Jz=n/2, respectively. This intriguing one-to-one mapping between anomalous vortex modes and higher-order topology can be systematically derived through a model-independent patch construction approach. As a proof of concept, we present an exactly solvable model to confirm the proposed vortex Majorana modes. Our theory establishes vortices as an unprecedented experimental measure of higher-order topology in superconductors.