Testing quantum critical dynamics beyond the Kibble-Zurek mechanism with a trapped-ion simulator

Using a trapped-ion quantum simulator, we experimentally probe the kink distribution resulting from driving a one-dimensional quantum Ising chain through the paramagnet-ferromagnet quantum phase transition. Quasiparticles are shown to obey a Poisson binomial distribution. All cumulants of the kink number distribution are nonzero and scale with a universal power-law as a function of the quench time in which the transition is crossed. We experimentally verified this scaling for the first cumulants and report deviations due to the dephasing-induced anti-Kibble-Zurek mechanism. Our results establish that the universal character of the critical dynamics can be extended beyond the paradigmatic Kibble-Zurek mechanism, that accounts for the mean kink number, to characterize the full probability distribution of topological defects.

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