Tunable transport with broken space–time symmetries
Copyright policy )Tunable transport with broken space–time symmetries
Transport properties of particles and waves in spatially periodic structures that are driven by external time-dependent forces manifestly depend on the space-time symmetries of the corresponding equations of motion. A systematic analysis of these symmetries uncovers the conditions necessary for obtaining directed transport. In this work we give a unified introduction into the symmetry analysis and demonstrate its action on the motion in one-dimensional periodic, both in time and space, potentials. We further generalize the analysis to quasi-periodic drivings, higher space dimensions, and quantum dynamics. Recent experimental results on the transport of cold and ultracold atomic ensembles in ac-driven optical potentials are reviewed as illustrations of theoretical considerations.
Phys. Rep., in press
- Universität Augsburg Germany
- Massey University New Zealand
- Sumy State University Ukraine
- Nanosystems Initiative Munich Germany
- Tongji University China (People's Republic of)
Quantum optics, Floquet theory, Dynamical systems in other branches of physics (quantum mechanics, general relativity, laser physics), Condensed Matter - Mesoscale and Nanoscale Physics, ddc:530, Transport processes in time-dependent statistical mechanics, FOS: Physical sciences, Strange attractors, chaotic dynamics of systems with hyperbolic behavior, nonlinear dynamics, Stochastic methods (Fokker-Planck, Langevin, etc.) applied to problems in time-dependent statistical mechanics, ratchet effect, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), Quantum dynamics and nonequilibrium statistical mechanics (general), quantum optics, Quantum dots, waveguides, ratchets, etc., Hamiltonian chaos, Statistical mechanics of random media, disordered materials (including liquid crystals and spin glasses)
Quantum optics, Floquet theory, Dynamical systems in other branches of physics (quantum mechanics, general relativity, laser physics), Condensed Matter - Mesoscale and Nanoscale Physics, ddc:530, Transport processes in time-dependent statistical mechanics, FOS: Physical sciences, Strange attractors, chaotic dynamics of systems with hyperbolic behavior, nonlinear dynamics, Stochastic methods (Fokker-Planck, Langevin, etc.) applied to problems in time-dependent statistical mechanics, ratchet effect, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), Quantum dynamics and nonequilibrium statistical mechanics (general), quantum optics, Quantum dots, waveguides, ratchets, etc., Hamiltonian chaos, Statistical mechanics of random media, disordered materials (including liquid crystals and spin glasses)
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