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Spinor Bose-Einstein condensates in double-well potentials

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Authors

Wang, C
Kevrekidis, P G
Whitaker, N
Alexander, Tristram J
Frantzeskakis, D J
Schmelcher, Peter

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IOP Electronic Journals

Abstract

We consider the statics and dynamics of F = 1 spinor Bose-Einstein condensates (BECs) confined in double-well potentials. We use a two-mode Galerkin-type quasi-analytical approximation to describe the stationary states of the system. This way, we are able to obtain not only earlier results based on the single-mode approximation (SMA) frequently used in studies of spinor BECs, but also additional modes that involve either two or all three spinor components of the F = 1 spinor BEC. The results based on this Galerkin-type decomposition are in good agreement with the analysis of the full system. We subsequently analyze the stability of these multi-component states, as well as their dynamics when we find them to be unstable. The instabilities of the symmetric or anti-symmetric states exhibit symmetry-breaking and recurrent asymmetric patterns. Our results yield qualitatively similar bifurcation diagrams both for polar (such as 23Na) and ferromagnetic (such as 87Rb) spinor BECs.

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Journal of Physics A: Mathematical and Theoretical

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Restricted until

2037-12-31