Add to ORKGWe study the mechanisms responsible for quantum diffusion in the quasiperiodic kicked rotor. We report experimental measurements of the diffusion constant on the atomic version of the system and develop a theoretical approach (based on the Floquet theorem) explaining the observations, especially the ``sub-Fourier'' character of the resonances observed in the vicinity of exact periodicity, i.e. the ability of the system to distinguish two neighboring driving frequencies in a time shorter than the inverse of the difference of the two frequencies
We study the emergence of diffusion for a quantum particle moving in a finite and translationally in...
We investigate the quantum irreversibility and quantum diffusion in a non-Hermitian kicked rotor mod...
The excitation of multi-level systems by a periodic field is considered in the regime of quasiclassi...
We study the mechanisms responsible for quantum diffusion in the quasiperiodic kicked rotor. We repo...
We experimentally verify the analytical expressions that exist for the diffusion rate in the quantum...
We study the dynamics of a quantum rotator, impulsively kicked according to the almost-periodic Fibo...
Subtle internal interference effects allow quantum-chaotic systems to display "sub-Fourier" resonanc...
This thesis investigates quantum transport in the energy space of two paradigm systems of quantum ch...
The phenomenon of dynamically induced anomalous diffusion is both the classical and quantum kicked r...
The dynamics of chaotic Hamiltonian systems such as the kicked rotor continues to guide our understa...
We study the dynamics of a generalization of quantum coin walk on the line which is a natural model ...
We study the resonances of the quantum kicked rotor subjected to an excitation that follows an aperi...
The Kicked Rotor is a well studied example of a classical Hamiltonian chaotic system, where the mome...
Several quantum phenomena have been experimentally investigated using the system of ultra-cold atoms...
We examine the quantum dynamics of cold atoms subjected to pairs of closely spaced kicks from stan...
We study the emergence of diffusion for a quantum particle moving in a finite and translationally in...
We investigate the quantum irreversibility and quantum diffusion in a non-Hermitian kicked rotor mod...
The excitation of multi-level systems by a periodic field is considered in the regime of quasiclassi...
We study the mechanisms responsible for quantum diffusion in the quasiperiodic kicked rotor. We repo...
We experimentally verify the analytical expressions that exist for the diffusion rate in the quantum...
We study the dynamics of a quantum rotator, impulsively kicked according to the almost-periodic Fibo...
Subtle internal interference effects allow quantum-chaotic systems to display "sub-Fourier" resonanc...
This thesis investigates quantum transport in the energy space of two paradigm systems of quantum ch...
The phenomenon of dynamically induced anomalous diffusion is both the classical and quantum kicked r...
The dynamics of chaotic Hamiltonian systems such as the kicked rotor continues to guide our understa...
We study the dynamics of a generalization of quantum coin walk on the line which is a natural model ...
We study the resonances of the quantum kicked rotor subjected to an excitation that follows an aperi...
The Kicked Rotor is a well studied example of a classical Hamiltonian chaotic system, where the mome...
Several quantum phenomena have been experimentally investigated using the system of ultra-cold atoms...
We examine the quantum dynamics of cold atoms subjected to pairs of closely spaced kicks from stan...
We study the emergence of diffusion for a quantum particle moving in a finite and translationally in...
We investigate the quantum irreversibility and quantum diffusion in a non-Hermitian kicked rotor mod...
The excitation of multi-level systems by a periodic field is considered in the regime of quasiclassi...