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Time Crystal in a Single-Mode Nonlinear Cavity

Yaohua Li, Chenyang Wang, Yuanjiang Tang, Yong‐Chun Liu

2024Physical Review Letters11 citationsDOI

Abstract

Time crystal is a class of nonequilibrium phases with broken time-translational symmetry. Here, we demonstrate the time crystal in a single-mode nonlinear cavity. The time crystal originates from the self-oscillation induced by a linear gain and is stabilized by a nonlinear damping. We show in the time crystal phase there are sharp dissipative gap closing and pure imaginary eigenvalues of the Liouvillian spectrum in the thermodynamic limit. Dynamically, we observe a metastable regime with the emergence of quantum oscillation, followed by a dissipative evolution with a timescale much longer than the oscillating period. Moreover, we show there is a dissipative phase transition at the Hopf bifurcation, which can be characterized by the photon number fluctuation in the steady state. These results pave a new promising way for further experiments and deepen our understanding of time crystals.

Topics & Concepts

Nonlinear systemMode (computer interface)Materials sciencePhysicsQuantum mechanicsComputer scienceOperating systemNonlinear Photonic SystemsStrong Light-Matter InteractionsQuantum optics and atomic interactions
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