Discrete time crystals (DTCs) exhibit a special nonequilibrium phase of matter in periodically driven manybody systems with spontaneous breaking of time translational symmetry. The presence of decoherence generally enhances thermalization and destroys the coherence required for the existence of DTCs. In this paper, we devise a mechanism for establishing a stable DTC with period-doubling oscillations in an open quantum system that is governed by a properly tailored non-Hermitian Hamiltonian. We find a specific class of nonreciprocal couplings in our non-Hermitian dynamics which prevents thermalization through eigenstate ordering. This choice of non-Hermitian dynamics significantly enhances the stability of the DTC against imperfect pulses. Through a comprehensive analysis, we determine the phase diagram of the system in terms of pulse imperfection.
Yousefjani R., Carollo A., Sacha K., Al-Kuwari S., Bayat A. (2025). Non-Hermitian discrete time crystals. PHYSICAL REVIEW. B, 111(16) [10.1103/PhysRevB.111.165117].
Non-Hermitian discrete time crystals
Carollo A.;
2025-05-10
Abstract
Discrete time crystals (DTCs) exhibit a special nonequilibrium phase of matter in periodically driven manybody systems with spontaneous breaking of time translational symmetry. The presence of decoherence generally enhances thermalization and destroys the coherence required for the existence of DTCs. In this paper, we devise a mechanism for establishing a stable DTC with period-doubling oscillations in an open quantum system that is governed by a properly tailored non-Hermitian Hamiltonian. We find a specific class of nonreciprocal couplings in our non-Hermitian dynamics which prevents thermalization through eigenstate ordering. This choice of non-Hermitian dynamics significantly enhances the stability of the DTC against imperfect pulses. Through a comprehensive analysis, we determine the phase diagram of the system in terms of pulse imperfection.
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Non-Hermitian discrete time crystals.pdf
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