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W2088827715 abstract "We report results from Monte Carlo simulations of a thin film superconductor in a spherical geometry within the lowest Landau level approximation. We observe the absence of a phase transition to a low temperature vortex solid phase with these boundary conditions; the system remains in the vortex liquid phase for all accessible temperatures. The correlation lengths are measured for phase coherence and density modulation. Both lengths display identical temperature dependences, with an asymptotic scaling form consistent with a continuous zero temperature transition. This contrasts with the first order freezing transition which is seen in the alternative quasi-periodic boundary conditions. The high temperature perturbation theory and the ground states of the spherical system suggest that the thermodynamic limit of the spherical geometry is the same as that on the flat plane. We discuss the advantages and drawbacks of simulations with different geometries, and compare with current experimental conclusions. The effect of having a large scale inhomogeneity in the applied field is also considered." @default.
W2088827715 created "2016-06-24" @default.
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W2088827715 date "1997-02-01" @default.
W2088827715 modified "2023-10-15" @default.
W2088827715 title "Vortices in a thin-film superconductor with a spherical geometry" @default.
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W2088827715 doi "https://doi.org/10.1103/physrevb.55.3816" @default.
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