Anti-Newtonian dynamics and self-induced Bloch oscillations of correlated particles
arXiv:1409.0431 · doi:10.1088/1367-2630/16/11/113076
Abstract
We predict that two correlated particles hopping on a one-dimensional Hubbard lattice can show transient self-acceleration and self-induced Bloch oscillations as a result of anti-Newtonian dynamics. Self-propulsion occurs for two particles with opposite effective mass on the lattice and requires long-range particle interaction. A photonic simulator of the two-particle Hubbard model with controllable long-range interaction, where self-propulsion can be observed, is discussed.
11 pages, 3 figures, comments are welcome