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Quenched binary Bose-Einstein condensates: spin domain formation and coarsening

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arxiv 1211.3127 v2 pith:LXFA6OTA submitted 2012-11-13 cond-mat.quant-gas physics.atom-ph

Quenched binary Bose-Einstein condensates: spin domain formation and coarsening

classification cond-mat.quant-gas physics.atom-ph
keywords spincomponentcondensatesbose-einsteincoarseningdomainsevolutionformation
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We explore the time evolution of quasi-1D two component Bose-Einstein condensates (BEC's) following a quench from one component BEC's with a ${\rm U}(1)$ order parameter into two component condensates with a ${\rm U}(1)\shorttimes{\rm Z}_2$ order parameter. In our case, these two spin components have a propensity to phase separate, i.e., they are immiscible. Remarkably, these spin degrees of freedom can equivalently be described as a single component attractive BEC. A spatially uniform mixture of these spins is dynamically unstable, rapidly amplifing any quantum or pre-existing classical spin fluctuations. This coherent growth process drives the formation of numerous spin polarized domains, which are far from the system's ground state. At much longer times these domains grow in size, coarsening, as the system approaches equilibrium. The experimentally observed time evolution is fully consistent with our stochastic-projected Gross-Pitaevskii calculation.

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