KPZ scaling in arrays of polariton condensates originates from fluctuations of Goldstone modes caused by U(1) symmetry breaking.
Low-dimensional trapped gases
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abstract
Recent developments in the physics of ultracold gases provide wide possibilities for reducing the dimensionality of space for magnetically or optically trapped atoms. The goal of these lectures is to show that regimes of quantum degeneracy in two-dimensional (2D) and one-dimensional (1D) trapped gases are drastically different from those in three dimensions and to stimulate an interest in low-dimensional systems. Attention is focused on the new physics appearing in currently studied low-dimensional trapped gases and related to finite-size and finite-temperature effects.
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The origin of KPZ-scaling in arrays of polariton condensates
KPZ scaling in arrays of polariton condensates originates from fluctuations of Goldstone modes caused by U(1) symmetry breaking.