Structure-dynamics relation in shaken optical lattices
arXiv:1505.07698 · doi:10.1103/PhysRevA.92.033407
Abstract
Shaken optical lattices permit to coherently modify the tunneling of particles in a controllable manner. We introduce a general relation between the geometry of shaken lattices and their admissible effective dynamics. Using three different examples, we illustrate the symmetries of the emerging tunneling rates. The results provide a clear framework to understand the relation between lattice geometry and accessible dynamics, and a tool to straightforwardly derive truncated effective Hamiltonians on arbitrary geometries.
This manuscript contains material from the first version of arXiv:1502.07350 that is not contained in its latter versions