Add to ORKGWe show that the quantum fidelity is accessible to cold atom experiments for a large class of evolutions in periodical potentials, properly taking into account the experimental initial conditions of the atomic ensemble. We prove analytically that, at the fundamental quantum resonances of the atom-optics kicked rotor, the fidelity saturates at a constant, time-independent value after a small number of kicks. The latter saturation arises from the bulk of the atomic ensemble, whilst for the resonantly accelerated atoms the fidelity is predicted to decay slowly according to a power law
The sensitivity of the fidelity in the kicked rotor to an acceleration is experimentally and theoret...
In this thesis we investigate quantum resonant effects in the atom-optical ὁ-kicked accelerator. Usi...
We present experimental measurements of the mean energy for the atom optics kicked rotor after just ...
We show that the quantum fidelity is accessible to cold atom experiments for a large class of evolut...
Kicked atoms under a constant Stark or gravity field are investigated for experimental setups with c...
peer reviewedaudience: researcher, professional, studentKicked atoms under a constant Stark or gravi...
The effect of pulse train noise on the energy peaks at quantum resonance seen in the Atom Optics Kic...
We present a perturbative result for the temporal evolution of the fidelity of the quantum kicked ro...
Several quantum phenomena have been experimentally investigated using the system of ultra-cold atoms...
We experimentally verify the analytical expressions that exist for the diffusion rate in the quantum...
We investigate the parametric fluctuations in the quantum survival probability of an open version of...
We revisit fidelity as a measure for the stability and the complexity of the quantum motion of singl...
We present mean energy measurements for the atom optics kicked rotor as the kicking period tends to ...
The quantum delta-kicked rotor has been one of the workhorses in the experimental investigation of q...
We present experimental measurements of the mean energy in the vicinity of the first and second quan...
The sensitivity of the fidelity in the kicked rotor to an acceleration is experimentally and theoret...
In this thesis we investigate quantum resonant effects in the atom-optical ὁ-kicked accelerator. Usi...
We present experimental measurements of the mean energy for the atom optics kicked rotor after just ...
We show that the quantum fidelity is accessible to cold atom experiments for a large class of evolut...
Kicked atoms under a constant Stark or gravity field are investigated for experimental setups with c...
peer reviewedaudience: researcher, professional, studentKicked atoms under a constant Stark or gravi...
The effect of pulse train noise on the energy peaks at quantum resonance seen in the Atom Optics Kic...
We present a perturbative result for the temporal evolution of the fidelity of the quantum kicked ro...
Several quantum phenomena have been experimentally investigated using the system of ultra-cold atoms...
We experimentally verify the analytical expressions that exist for the diffusion rate in the quantum...
We investigate the parametric fluctuations in the quantum survival probability of an open version of...
We revisit fidelity as a measure for the stability and the complexity of the quantum motion of singl...
We present mean energy measurements for the atom optics kicked rotor as the kicking period tends to ...
The quantum delta-kicked rotor has been one of the workhorses in the experimental investigation of q...
We present experimental measurements of the mean energy in the vicinity of the first and second quan...
The sensitivity of the fidelity in the kicked rotor to an acceleration is experimentally and theoret...
In this thesis we investigate quantum resonant effects in the atom-optical ὁ-kicked accelerator. Usi...
We present experimental measurements of the mean energy for the atom optics kicked rotor after just ...