Localization, quantum resonances and ratchet acceleration in a periodically-kicked PT-symmetric quantum rotator
Abstract
We consider wave transport phenomena in a PT-symmetric extension of the periodically-kicked quantum rotator model and reveal that dynamical localization assists the unbroken PT phase. In the delocalized (quantum resonance) regime, PT symmetry is always in the broken phase and ratchet acceleration arises as a signature of unidirectional non-Hermitian transport. An optical implementation of the periodically-kicked PT-symmetric Hamiltonian, based on transverse beam propagation in a passive optical resonator with combined phase and loss gratings, is suggested to visualize acceleration modes in fractional Talbot cavities.
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