Quenching the Kitaev honeycomb model
Abstract
I studied the non-equilibrium response of an initial N\'eel state under time evolution with the Kitaev honeycomb model. With isotropic interactions (Jx = Jy = Jz) the system quickly loses its antiferromagnetic order and crosses over into a steady state valence bond solid, which can be inferred from the long-range dimer correlations. There is no signature of a dynamical phase transition. Upon including anisotropy (Jx = Jy ≠ Jz), an exponentially long prethermal regime appears with persistent magnetization oscillations whose period derives from an effective toric code.
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