Proximity-encirclement of exceptional points in a multimode optomechanical system

• URL: http://arxiv.org/abs/2305.15682v1
• Date: Thu, 25 May 2023 03:13:36 GMT
• Title: Proximity-encirclement of exceptional points in a multimode optomechanical system
• Authors: Zheng Fan, Dan Long, Xuan Mao, Guo-Qing Qin,{Min Wang, Gui-Qin Li, Gui-Lu Long
• Abstract summary: Dynamic encircling a second-order exception point (EP) exhibit chiral state transfer, while there is few research on dynamic encircling multiple and higher-order EPs. We study proximity-encirclement of the EPs in a multimode optomechanical system to understand the closed path evolution of high-order non-Hermitian systems.
• Score: 2.597549668307779
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Dynamic encircling a second-order exception point (EP) exhibit chiral state transfer, while there is few research on dynamic encircling multiple and higher-order EPs. Here, we study proximity-encirclement of the EPs in a multimode optomechanical system to understand the closed path evolution of high-order non-Hermitian systems. The optomechanical system has three types of situations about EPs: the system has no EP, a pair of second-order EPs, and a third-order EP. The dynamical behavior of the system's dependence on the initial state, orientation, and velocity of the loop, the variance in the starting point of the loop, as well as the number and order of EPs encircled by the loop have been investigated in the process of state transfer. The results show that chiral or non-reciprocal state transfer can be realized when the loop encircling a second-order EP with different radius. Only chiral state transfer occurs when encircling two second-order EPs. Moreover, chiral and non-reciprocal state transfer can happen in a single loop encircling a third-order EP. The phenomena about encircling the EPs in a multimode optomechanical system provides another means for manipulating state transfer in higher-order non-Hermitian systems.

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