On the generality of symmetry breaking and dissipative freezing in quantum trajectories
SciPost Physics Core Stichting SciPost 6:1 (2023) 004
Quantum physics in connected worlds
Nature Communications Springer Nature 13:1 (2022) 7445
Recompilation-enhanced simulation of electron鈥損honon dynamics on IBM quantum computers
New Journal of Physics IOP Publishing 24:9 (2022) 093017
Time periodicity from randomness in quantum systems
Physical Review A 106:2 (2022)
Abstract:
Many complex systems can spontaneously oscillate under nonperiodic forcing. Such self-oscillators are commonplace in biological and technological assemblies where temporal periodicity is needed, such as the beating of a human heart or the vibration of a cello string. While self-oscillation is well understood in classical nonlinear systems and their quantized counterparts, the spontaneous emergence of periodicity in quantum systems is more elusive. Here, we show that this behavior can emerge within the repeated-interaction description of open quantum systems. Specifically, we consider a many-body quantum system that undergoes dissipation due to sequential coupling with auxiliary systems at random times. We develop dynamical symmetry conditions that guarantee an oscillatory long-time state in this setting. Our rigorous results are illustrated with specific spin models, which could be implemented in trapped-ion quantum simulators.Crystallization via cavity-assisted infinite-range interactions
Physical Review A American Physical Society (APS) 106:1 (2022) l011701