Interplay of Soundcone and Supersonic Propagation in Lattice Models with Power Law Interactions
arXiv:1502.05891 · doi:10.1088/1367-2630/17/6/063021
Abstract
We study the spreading of correlations and other physical quantities in quantum lattice models with interactions or hopping decaying like $r^{-α}$ with the distance $r$. Our focus is on exponents $α$ between 0 and 6, where the interplay of long- and short-range features gives rise to a complex phenomenology and interesting physical effects, and which is also the relevant range for experimental realizations with cold atoms, ions, or molecules. We present analytical and numerical results, providing a comprehensive picture of spatio-temporal propagation. Lieb-Robinson-type bounds are extended to strongly long-range interactions where $α$ is smaller than the lattice dimension, and we report particularly sharp bounds that are capable of reproducing regimes with soundcone as well as supersonic dynamics. Complementary lower bounds prove that faster-than-soundcone propagation occurs for $α<2$ in any spatial dimension, although cone-like features are shown to also occur in that regime. Our results provide guidance for optimizing experimental efforts to harness long-range interactions in a variety of quantum information and signaling tasks.
20 pages, 8 figures