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Nonthermal antiferromagnetic order and nonequilibrium criticality in the Hubbard model

We study dynamical phase transitions from antiferromagnetic to paramagnetic states driven by an interaction quench in the fermionic Hubbard model using the nonequilibrium dynamical mean-field theory. We identify two dynamical transition points where the relaxation behavior qualitatively changes: one corresponds to the thermal phase transition at which the order parameter decays critically slowly in a power law $\propto t^{-1/2}$, and the other is connected to the existence of nonthermal antiferromagnetic order in systems with effective temperature above the thermal critical temperature. The frequency of the amplitude mode extrapolates to zero as one approaches the nonthermal (quasi)critical point, and thermalization is significantly delayed by the trapping in the nonthermal state. A slow relaxation of the nonthermal order is followed by a faster thermalization process.

preprint2013arXivOpen access
Naoto TsujiMartin EcksteinPhilipp Werner
cond-mat.stat-mechcond-mat.str-el
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Naoto TsujiMartin EcksteinPhilipp Werner

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