Add to ORKGSubtle internal interference effects allow quantum-chaotic systems to display "sub-Fourier" resonances, i.e. to distinguish two neighboring driving frequencies in a time shorter than the inverse of the difference of the two frequencies. We report experiments on the atomic version of the kicked rotor showing the unusual properties of the sub-Fourier resonances, and develop a theoretical approach (based on the Floquet theorem) explaining these properties, and correctly predicting the widths and lineshapes
The effect of pulse train noise on the energy peaks at quantum resonance seen in the Atom Optics Kic...
We review the theoretical model and experimental realization of the atom optics δ-kicked...
Abstract. In ballistic open quantum systems one often observes that the resonances in the complex-en...
We study the mechanisms responsible for quantum diffusion in the quasiperiodic kicked rotor. We repo...
Dynamical tunneling between symmetry-related stable modes is studied in the periodically driven pend...
The response of a linear system to an external perturbation is governed by the Fourier limit, with t...
We study the resonances of the quantum kicked rotor subjected to an excitation that follows an aperi...
Several quantum phenomena have been experimentally investigated using the system of ultra-cold atoms...
We investigate Floquet dynamics of a particle held in a three-well system driven by a two-frequency ...
The quantum delta-kicked rotor has been one of the workhorses in the experimental investigation of q...
Dynamical tunnelling between symmetry-related stable modes is studied in the periodically driven pen...
We present experimental measurements of the mean energy in the vicinity of the first and second quan...
Employing the external degrees of freedom of atoms as synthetic dimensions renders easy and new acce...
We review the concept and applications of a semiclassical (epsilon-classical or pseudoclassical) app...
We discuss recent experimental and theoretical investigations of quantum dynamics in periodically ki...
The effect of pulse train noise on the energy peaks at quantum resonance seen in the Atom Optics Kic...
We review the theoretical model and experimental realization of the atom optics δ-kicked...
Abstract. In ballistic open quantum systems one often observes that the resonances in the complex-en...
We study the mechanisms responsible for quantum diffusion in the quasiperiodic kicked rotor. We repo...
Dynamical tunneling between symmetry-related stable modes is studied in the periodically driven pend...
The response of a linear system to an external perturbation is governed by the Fourier limit, with t...
We study the resonances of the quantum kicked rotor subjected to an excitation that follows an aperi...
Several quantum phenomena have been experimentally investigated using the system of ultra-cold atoms...
We investigate Floquet dynamics of a particle held in a three-well system driven by a two-frequency ...
The quantum delta-kicked rotor has been one of the workhorses in the experimental investigation of q...
Dynamical tunnelling between symmetry-related stable modes is studied in the periodically driven pen...
We present experimental measurements of the mean energy in the vicinity of the first and second quan...
Employing the external degrees of freedom of atoms as synthetic dimensions renders easy and new acce...
We review the concept and applications of a semiclassical (epsilon-classical or pseudoclassical) app...
We discuss recent experimental and theoretical investigations of quantum dynamics in periodically ki...
The effect of pulse train noise on the energy peaks at quantum resonance seen in the Atom Optics Kic...
We review the theoretical model and experimental realization of the atom optics δ-kicked...
Abstract. In ballistic open quantum systems one often observes that the resonances in the complex-en...