The positive-P representation approach to quantum dynamics in Bose gases is presented. This first-principles stochastic method allows real-time quantum-dynamical calculations to be carried out. Examples are given for experimentally tested predictions of soliton quantum squeezing and quantum correlations in Bose-Einstein condensate collisions
We discuss stochastic phase-space methods within the truncated Wigner approximation and show explici...
We demonstrate that the quantum dynamics of a many-body Fermi-Bose system can be simulated using a G...
We introduce a positive phase-space representation for fermions, using the most general possible mul...
The positive-P representation approach to quantum dynamics in Bose gases is presented. This first-pr...
The performance of the positive P phase-space representation for exact many-body quantum dynamics is...
The performance of the positive P phase-space representation for exact many- body quantum dynamics i...
First principles simulations of the quantum dynamics of interacting Bose gases using the stochastic ...
First principles simulations of the quantum dynamics of interacting Bose gases using the stochastic ...
The quantum dynamics and grand canonical thermodynamics of many-mode (one-, two-, and three-dimensio...
Hydrodynamic theories offer successful approaches that are capable of simulating the otherwise diffi...
We provide the necessary framework for carrying out stochastic positive-P and gauge-P simulations of...
We provide the necessary framework for carrying out stochastic positive-P and gauge-P simulations of...
We provide the necessary framework for carrying out stochastic positive-P and gauge-P simulations of...
The general idea of a stochastic gauge representation is introduced and compared with more tradition...
We review recent developments in the theory of quantum dynamics in ultracold atomic physics, includi...
We discuss stochastic phase-space methods within the truncated Wigner approximation and show explici...
We demonstrate that the quantum dynamics of a many-body Fermi-Bose system can be simulated using a G...
We introduce a positive phase-space representation for fermions, using the most general possible mul...
The positive-P representation approach to quantum dynamics in Bose gases is presented. This first-pr...
The performance of the positive P phase-space representation for exact many-body quantum dynamics is...
The performance of the positive P phase-space representation for exact many- body quantum dynamics i...
First principles simulations of the quantum dynamics of interacting Bose gases using the stochastic ...
First principles simulations of the quantum dynamics of interacting Bose gases using the stochastic ...
The quantum dynamics and grand canonical thermodynamics of many-mode (one-, two-, and three-dimensio...
Hydrodynamic theories offer successful approaches that are capable of simulating the otherwise diffi...
We provide the necessary framework for carrying out stochastic positive-P and gauge-P simulations of...
We provide the necessary framework for carrying out stochastic positive-P and gauge-P simulations of...
We provide the necessary framework for carrying out stochastic positive-P and gauge-P simulations of...
The general idea of a stochastic gauge representation is introduced and compared with more tradition...
We review recent developments in the theory of quantum dynamics in ultracold atomic physics, includi...
We discuss stochastic phase-space methods within the truncated Wigner approximation and show explici...
We demonstrate that the quantum dynamics of a many-body Fermi-Bose system can be simulated using a G...
We introduce a positive phase-space representation for fermions, using the most general possible mul...
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