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Nonthermal symmetry-broken states in the strongly interacting Hubbard model

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PhysRevB.86.205101.pdf
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Citation

Werner, P., Tsuji, N., & Eckstein, M. (2012). Nonthermal symmetry-broken states in the strongly interacting Hubbard model. Physical Review B, 86(20): 205101. doi:10.1103/PhysRevB.86.205101.


Cite as: https://hdl.handle.net/11858/00-001M-0000-0028-1628-3
Abstract
We study the time evolution of the antiferromagnetic order parameter after interaction quenches in the Hubbard model. Using the nonequilibrium dynamical mean-field formalism, we show that the system, after a quench from intermediate to strong interaction, is trapped in a nonthermal state which is reminiscent of a photodoped state and protected by the slow decay of doublons. If the effective doping of this state is low enough, it exhibits robust antiferromagnetic order, even if the system is highly excited and the thermal state is thus expected to be paramagnetic. We comment on the implication of our findings for the stability of nonthermal superconducting states.