Non-Hermitian Sensing in the Absence of Exceptional Points

IF 8.1 1区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY Physical review letters Pub Date : 2024-10-28 DOI:10.1103/physrevlett.133.180801
Lei Xiao, Yaoming Chu, Quan Lin, Haiqing Lin, Wei Yi, Jianming Cai, Peng Xue
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Abstract

Open systems possess unique potentials in high-precision sensing, yet the majority of previous studies rely on the spectral singularities known as “exceptional points.” Here, we theoretically propose and experimentally demonstrate universal non-Hermitian sensing in the absence of exceptional points. The scheme makes use of the intrinsic sensitivity of a non-Hermitian probe to weak external fields, which can be understood as the direct consequence of non-Hermiticity. We confirm the basic mechanism by simulating the sensor-field dynamics using photon interferometry, and, as a concrete example, demonstrate the enhanced sensing of signals encoded in the setting angle of a wave plate. While the sensitivity of the probe is ultimately limited by the measurement noise, we find the non-Hermitian sensor showing superior performance under background noises that cannot be suppressed through repetitive measurements. Our experiment opens the avenue of enhanced sensing without exceptional points, complementing existing efforts aimed at harnessing the unique features of open systems.
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无异常点的非ermitian传感
开放系统在高精度传感方面具有独特的潜力,然而之前的大多数研究都依赖于被称为 "例外点 "的光谱奇异性。在这里,我们从理论上提出并通过实验证明了在没有例外点的情况下的通用非赫米梯度传感。该方案利用了非超常探针对外部弱场的内在敏感性,这可以理解为非超常性的直接结果。我们利用光子干涉测量法模拟了探头-场动态,证实了这一基本机制,并举例说明了对波板设置角编码信号的增强感应。虽然探头的灵敏度最终受限于测量噪声,但我们发现非赫米提传感器在背景噪声下表现出卓越的性能,而背景噪声是无法通过重复测量来抑制的。我们的实验开辟了一条无特殊点增强传感的途径,补充了旨在利用开放系统独特功能的现有努力。
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来源期刊
Physical review letters
Physical review letters 物理-物理:综合
CiteScore
16.50
自引率
7.00%
发文量
2673
审稿时长
2.2 months
期刊介绍: Physical review letters(PRL)covers the full range of applied, fundamental, and interdisciplinary physics research topics: General physics, including statistical and quantum mechanics and quantum information Gravitation, astrophysics, and cosmology Elementary particles and fields Nuclear physics Atomic, molecular, and optical physics Nonlinear dynamics, fluid dynamics, and classical optics Plasma and beam physics Condensed matter and materials physics Polymers, soft matter, biological, climate and interdisciplinary physics, including networks
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