Zhang Zimo, Zhang Fengbo, Xu Zhongxiao, Hu Ying, Bao Han, Shen Heng
State Key Laboratory of Quantum Optics and Quantum Optics Devices, Institute of Opto-electronics, <a href="https://ror.org/03y3e3s17">Shanxi University</a>, Taiyuan, Shanxi 030006, China.
Collaborative Innovation Center of Extreme Optics, <a href="https://ror.org/03y3e3s17">Shanxi University</a>, Taiyuan, Shanxi 030006, China.
Phys Rev Lett. 2024 Sep 27;133(13):133601. doi: 10.1103/PhysRevLett.133.133601.
Exceptional degeneracies and generically complex spectra of non-Hermitian systems are at the heart of numerous phenomena absent in the Hermitian realm. Recently, it was suggested that Floquet dissipative coupling in the space-time domain may provide a novel mechanism to drive intriguing spectral topology with no static analogs, though its experimental investigation in quantum systems remains elusive. We demonstrate such Floquet dissipative coupling in an ensemble of thermal atoms interacting with two spatially separated optical beams, and observe an anomalous anti-parity-time symmetry phase transition at an exception point far from the phase-transition threshold of the static counterpart. Our protocol sets the stage for Floquet engineering of non-Hermitian topological spectra, and for engineering new quantum phases that cannot exist in static systems.
非厄米系统中异常的简并性和一般复杂的谱是厄米领域中众多不存在的现象的核心。最近,有人提出时空域中的弗洛凯耗散耦合可能提供一种新颖的机制来驱动有趣的谱拓扑结构,而这种结构没有静态的类似物,尽管其在量子系统中的实验研究仍然难以实现。我们在与两束空间分离的光束相互作用的热原子系综中展示了这种弗洛凯耗散耦合,并在远离静态对应物相变阈值的例外点处观察到异常的反宇称时间对称相变。我们的方案为非厄米拓扑谱的弗洛凯工程以及为工程设计静态系统中不存在的新量子相奠定了基础。
