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Paper detail

Tunable Non-equilibrium Phase Transitions between Spatial and Temporal Order through Dissipation

We propose an experiment with a driven quantum gas coupled to a dissipative optical cavity that realizes a novel kind of far-from-equilibrium phase transition between spatial and temporal order. The control parameter of the transition is the detuning between the drive frequency and the cavity resonance. For negative detunings, the system features a spatially ordered phase, while positive detunings lead to a phase with both spatial order and persistent oscillations, which we call dissipative spatio-temporal lattice. We give numerical and analytical evidence for this superradiant phase transition and show that the spatio-temporal lattice originates from cavity dissipation. In both regimes the atoms are subject to an accelerated transport, either via a uniform acceleration or via abrupt transitions to higher momentum states. Our work provides perspectives for temporal phases of matter that are not possible at equilibrium.

preprint2022arXivOpen access
Zhao ZhangDavide DreonTilman EsslingerDieter JakschBerislav BucaTobias Donner
cond-mat.stat-mechcond-mat.quant-gasquant-ph
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Zhao ZhangDavide DreonTilman EsslingerDieter JakschBerislav BucaTobias Donner

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