Enhanced sensing mechanism based on shifting an exceptional point

• URL: http://arxiv.org/abs/2307.09013v1
• Date: Tue, 18 Jul 2023 07:02:45 GMT
• Title: Enhanced sensing mechanism based on shifting an exceptional point
• Authors: Xuan Mao, Guo-Qing Qin, Hao Zhang, Bo-Yang Wang, Dan Long, Gui-Qin Li, and Gui-Lu Long
• Abstract summary: Non-Hermitian systems associated with exceptional points (EPs) are expected to demonstrate a giant response enhancement for various sensors. We propose a new enhanced sensing mechanism based on shifting an EP. New sensing mechanism can promise the most ffective response enhancement for all sensors in the case of multiple sensing in a time sequence.
• Score: 6.839932518667983
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Non-Hermitian systems associated with exceptional points (EPs) are expected to demonstrate a giant response enhancement for various sensors. The widely investigated enhancement mechanism based on diverging from an EP should destroy the EP and further limits its applications for multiple sensing scenarios in a time sequence. To break the above limit, here we proposed a new enhanced sensing mechanism based on shifting an EP. Different from the mechanism of diverging from an EP, our scheme is an EP non-demolition and the giant enhancement of response is acquired by a slight shift of the EP along the parameter axis induced by perturbation. The new sensing mechanism can promise the most ffective response enhancement for all sensors in the case of multiple sensing in a time sequence. To verify our sensing mechanism, we construct a mass sensor and a gyroscope with concrete physical implementations. Our work will deepen the understanding of EP-based sensing and inspire designing various high sensitivity sensors in different physical systems.

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