Discrete sliding symmetries, dualities, and self-dualities of quantum orbital compass models and p+ip superconducting arrays -: art. no. 195120

We study the spin-1/2 two- and three-dimensional orbital compass models relevant to the problem of orbital ordering in transition metal oxides. We show that these systems display self-dualities and gauge-like discrete sliding symmetries. An important and surprising consequence is that these models are dual to (seemingly unrelated) recently studied models of p+ip superconducting arrays. The duality transformations are constructed by means of a path-integral representation in discretized imaginary time and considering its Z(2) spatial reflection symmetries and space-time discrete rotations, we obtain, in a transparent unified geometrical way, several dualities. We also introduce an alternative construction of the duality transformations using operator identities. We discuss the consequences of these dualities for the order parameters and phase transitions of the orbital compass model and its generalizations, and apply these ideas to a number of related systems.