Minimum instances of topological matter in an optical plaquette

We propose experimental schemes to create and probe minimum forms of different topologically ordered states in a plaquette of an optical lattice: resonating valence bond, and Laughlin and string-net-condensed states. We show how to create anyonic excitations on top of these liquids and detect their fractional statistics. In addition, we propose a way to design a plaquette ring-exchange interaction, the building block Hamiltonian of a lattice topological theory. Our preparation and detection schemes combine different techniques already demonstrated in experiments with atoms in optical superlattices.