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Chapitre D'ouvrage Année : 2015

Modeling and computation of Bose-Einstein condensates: stationary states, nucleation, dynamics, stochasticity

Résumé

The aim of this chapter is first to give an introduction to the derivation of the Gross-Pitaevskii Equations (GPEs) that arise in the modeling of Bose-Einstein Condensates (BECs). In particular, we describe some physical problems related to stationary states, dynamics, multi-components BECs and the possibility of handling stochastic effects into the equation. Next, we explain how to compute the stationary (and ground) states of the GPEs through the imaginary time method (also called Conjugate Normalized Gradient Flow) and finite difference or pseudo-spectral dis-cretization techniques. Examples are provided by using GPELab which is a Mat-lab toolbox dedicated to the numerical solution of GPEs. Finally, we explain how to discretize correctly the time-dependent GPE so that the schemes are physically admissible. We again provide some examples by using GPELab. Furthermore, extensions of the discretization schemes to some classes of stochastic (in time) GPEs are described and analyzed.
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hal-01094826 , version 1 (09-02-2016)

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  • HAL Id : hal-01094826 , version 1

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Xavier Antoine, Romain Duboscq. Modeling and computation of Bose-Einstein condensates: stationary states, nucleation, dynamics, stochasticity. Lecture Notes in Mathematics, 2146, Springer, pp.49-145, 2015, Nonlinear Optical and Atomic Systems: at the Interface of Mathematics and Physics. ⟨hal-01094826⟩
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