We propose an experiment to measure the slow log(N) convergence to mean-field theory (MFT) around a dynamical instability. Using a density matrix formalism, we derive equations of motion which go beyond MFT and provide accurate predictions for the quantum break-time. The leading quantum corrections appear as decoherence of the reduced single-particle quantum state
Quantum simulators allow to explore static and dynamical properties of otherwise intractable quantum...
Quantum mechanics revolutionized the previous century, not only in technology with lasers and semico...
The results of some simple calculations designed to study quantum decoherence are presented. The phy...
We provide a number-conserving approach to the backreaction problem of small quantum fluctuations on...
We develop a pairing mean-field theory to describe the quantum dynamics of the dissociation of molec...
We study decoherence in a simple quantum mechanical model using two approaches. Firstly, we follow t...
International audienceThe quantum coherence of a Bose-Einstein condensate is studied using the conce...
Bose-Einstein condensation, theoretically known to appear at ultralow temperatures since the 1920s, ...
By means of an adapted mean-field expansion for large fillings n 1, we study the evolution of quantu...
A long-standing challenge in the foundations of quantum mechanics is the verification of alternative...
We explored interaction cold atoms in new quantum regimes that have no prior analogue in condensed m...
We investigate decoherence in the quantum kicked rotator (modelling cold atoms in a pulsed optical f...
The key factors that distinguish algorithms for nonadiabatic mixed quantum/classical (MQC) simulatio...
We study both mean-field and full quantum dynamics of symmetry-breaking transitions (SBTs) in a coup...
4 pages, 3 figures.International audienceWe study the real-time evolution of a self-interacting O(N)...
Quantum simulators allow to explore static and dynamical properties of otherwise intractable quantum...
Quantum mechanics revolutionized the previous century, not only in technology with lasers and semico...
The results of some simple calculations designed to study quantum decoherence are presented. The phy...
We provide a number-conserving approach to the backreaction problem of small quantum fluctuations on...
We develop a pairing mean-field theory to describe the quantum dynamics of the dissociation of molec...
We study decoherence in a simple quantum mechanical model using two approaches. Firstly, we follow t...
International audienceThe quantum coherence of a Bose-Einstein condensate is studied using the conce...
Bose-Einstein condensation, theoretically known to appear at ultralow temperatures since the 1920s, ...
By means of an adapted mean-field expansion for large fillings n 1, we study the evolution of quantu...
A long-standing challenge in the foundations of quantum mechanics is the verification of alternative...
We explored interaction cold atoms in new quantum regimes that have no prior analogue in condensed m...
We investigate decoherence in the quantum kicked rotator (modelling cold atoms in a pulsed optical f...
The key factors that distinguish algorithms for nonadiabatic mixed quantum/classical (MQC) simulatio...
We study both mean-field and full quantum dynamics of symmetry-breaking transitions (SBTs) in a coup...
4 pages, 3 figures.International audienceWe study the real-time evolution of a self-interacting O(N)...
Quantum simulators allow to explore static and dynamical properties of otherwise intractable quantum...
Quantum mechanics revolutionized the previous century, not only in technology with lasers and semico...
The results of some simple calculations designed to study quantum decoherence are presented. The phy...
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