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Main Authors: Yang, Shu, Wang, Zeqing, Fu, Libin, Jie, Jianwen
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2403.08476
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author Yang, Shu
Wang, Zeqing
Fu, Libin
Jie, Jianwen
author_facet Yang, Shu
Wang, Zeqing
Fu, Libin
Jie, Jianwen
contents Time crystals are a nonequilibrium phase of matter that extend fundamental spontaneous symmetry breaking into the temporal dimension, typically requiring external driving for their realization. Here, we explore the nonequilibrium phase diagram of a two-dimensional dissipative Heisenberg spin system without external coherent or incoherent driving. Through numerical analysis of spin dynamics, we identify nonstationary steady states, some of which are limit cycles with persistent periodic oscillations, while others exhibit chaotic, aperiodic behavior. The emergence of limit cycle steady states breaks the continuous time-translation symmetry of this time-independent many-body system, classifying them as continuous time crystals. We further validate these oscillatory behaviors by testing their stability against local perturbations and assess the robustness of the emergent continuous time crystals by introducing isotropic Gaussian white noise. This work provides insights into the intricate interplay between the dissipation and spin interaction, and opens possibilities for realizing dissipation-induced, heating-immune time crystals.
format Preprint
id arxiv_https___arxiv_org_abs_2403_08476
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Emergent Continuous Time Crystal in Dissipative Quantum Spin System without Driving
Yang, Shu
Wang, Zeqing
Fu, Libin
Jie, Jianwen
Quantum Physics
Quantum Gases
Time crystals are a nonequilibrium phase of matter that extend fundamental spontaneous symmetry breaking into the temporal dimension, typically requiring external driving for their realization. Here, we explore the nonequilibrium phase diagram of a two-dimensional dissipative Heisenberg spin system without external coherent or incoherent driving. Through numerical analysis of spin dynamics, we identify nonstationary steady states, some of which are limit cycles with persistent periodic oscillations, while others exhibit chaotic, aperiodic behavior. The emergence of limit cycle steady states breaks the continuous time-translation symmetry of this time-independent many-body system, classifying them as continuous time crystals. We further validate these oscillatory behaviors by testing their stability against local perturbations and assess the robustness of the emergent continuous time crystals by introducing isotropic Gaussian white noise. This work provides insights into the intricate interplay between the dissipation and spin interaction, and opens possibilities for realizing dissipation-induced, heating-immune time crystals.
title Emergent Continuous Time Crystal in Dissipative Quantum Spin System without Driving
topic Quantum Physics
Quantum Gases
url https://arxiv.org/abs/2403.08476