Models for d Wave Topological Superconductors and Quantum Anomalous Hall Effect with Arbitrary Large Chern Numbers

Abstract

We construct theoretical models for two dimensional(2d) chiral dx2-y2 idxy topological superconductors and for three dimensional(3d) d wave topological superconductors. Moreover we build models for any 2d class C and 3d class CI topological superconductors (with any even topological invariants). We also construct concrete models that can realize quantum anomalous Hall effect with arbitrary large Chern numbers. We study the chiral edge modes or gapless surface states of our 2d or 3d models in details. In all the cases, we find novel mechanisms that make the numbers of boundary states always agree with the nontrivial bulk topology, just as required by the bulk boundary correspondence.