Interaction-induced current-reversals in driven lattices

Interaction-induced current-reversals in driven lattices

Blog Article

Long-range interactions are shown to cause, as time evolves, consecutive reversals of directed currents for dilute ensembles of particles in driven lattices.These current reversals are based on a general mechanism that leads GF MUESLI to an interaction-induced accumulation of particles in the regular regions of the underlying single-particle phase space and to a synchronized single-particle motion as well as enhanced efficiency of Hamiltonian ratchets.Suggestions for experimental implementations using ionized mesoscopic clusters in micromechanical lattices or dipolarly interacting colloidal Covers particles in ac-driven optical lattices are provided.