Davide Squizzato scite author profile

Exciton-polaritons under driven-dissipative conditions exhibit a condensation transition which belongs to a different universality class than equilibrium Bose-Einstein condensates. By numerically solving the generalized Gross-Pitaevskii equation with realistic experimental parameters, we show that one-dimensional exciton-polaritons display fine features of Kardar-Parisi-Zhang (KPZ) dynamics. Beyond the scaling exponents, we show that their phase distribution follows the Tracy-Widom form predicted for KPZ growing interfaces. We moreover evidence a crossover to the stationary Baik-Rains statistics. We finally show that these features are unaffected on a certain timescale by the presence of a smooth disorder often present in experimental setups.

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Kardar-Parisi-Zhang equation with temporally correlated noise: A nonperturbative renormalization group approach

Squizzato

Canet

2019

Phys. Rev. E

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We investigate the universal behavior of the Kardar-Parisi-Zhang equation with temporally correlated noise. The presence of time correlations in the microscopic noise breaks the statistical tilt symmetry, or Galilean invariance, of the original KPZ equation with delta-correlated noise (denoted SR-KPZ). Thus it is not clear whether the KPZ universality class is preserved in this case. Conflicting results exist in the literature, some advocating that it is destroyed even in the limit of infinitesimal temporal correlations, while others find that it persists up to a critical range of such correlations. Using non-perturbative and functional renormalization group techniques, we study the influence of two types of temporal correlators of the noise: a short range one with a typical time-scale τ , and a power-law one with a varying exponent θ. We show that for the short-range noise with any finite τ , the symmetries (the Galilean symmetry, and the time-reversal one in D = 1 + 1) are dynamically restored at large scales, and the long-distance properties are governed by the SR-KPZ fixed point. In the presence of a power-law noise, we find that the SR-KPZ fixed point is still stable for θ below a critical value θc, in accordance with previous RG results, while a long-range (LR) fixed-point controls the critical scaling for θ > θc, and we evaluate the θ-dependent critical exponents at this LR fixed point, in both D = 1 + 1 and D = 2 + 1 dimensions. While the results in D = 1 + 1 can be compared to previous estimates, no other prediction was available in D = 2 + 1.

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Davide Squizzato

Kardar-Parisi-Zhang universality in the phase distributions of one-dimensional exciton-polaritons

Kardar-Parisi-Zhang equation with temporally correlated noise: A nonperturbative renormalization group approach

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