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W2005526678 abstract "We study the dynamics of the relative phase of a bilayer of two-dimensional superfluids after the two superfluids have been decoupled. We find that on short time scales the relative phase shows ``light cone''-like dynamics and creates a metastable superfluid state, which can be supercritical. We also demonstrate similar light cone dynamics for the transverse field Ising model. On longer time scales the supercritical state relaxes to a disordered state due to dynamical vortex unbinding. This scenario of dynamically suppressed vortex proliferation constitutes a reverse-Kibble-Zurek effect. We study this effect both numerically using truncated Wigner approximation and analytically within a newly suggested time dependent renormalization group approach (RG). In particular, within RG we show that there are two possible fixed points for the real-time evolution corresponding to the superfluid and normal steady states. So depending on the initial conditions and the microscopic parameters of the Hamiltonian the system undergoes a nonequilibrium phase transition of the Kosterlitz-Thouless type. The time scales for the vortex unbinding near the critical point are exponentially divergent, similar to the equilibrium case." @default.
W2005526678 created "2016-06-24" @default.
W2005526678 creator A5025748256 @default.
W2005526678 creator A5086324550 @default.
W2005526678 date "2010-03-11" @default.
W2005526678 modified "2023-10-16" @default.
W2005526678 title "Light cone dynamics and reverse Kibble-Zurek mechanism in two-dimensional superfluids following a quantum quench" @default.
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W2005526678 doi "https://doi.org/10.1103/physreva.81.033605" @default.
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