量子计量学
灵敏度(控制系统)
计量学
量子
拉比周期
拉比频率
物理
过渡(遗传学)
统计物理学
量子力学
工程类
电子工程
量子技术
化学
开放量子系统
基因
生物化学
激光器
标识
DOI:10.1002/qute.202400630
摘要
Abstract Squeezing and transition criticality are two main sensitivity resources for quantum metrology (QM), combination of them may yield an upgraded metrology protocol for higher upper bound of measurement precision (MP). The present work shows that such a combination is feasible in light–matter interactions by a realizable asymmetric non‐linear quantum Rabi model (QRM). Indeed, the non‐linear coupling possesses a squeezing resource for diverging MP while the non‐monotonous degeneracy lifting by the asymmetries induces an additional tunable transition which further enhances the MP by several orders, as demonstrated by the quantum Fisher information (QFI). The resource combination not only leads to cooperative boosts to the divergence of QFI but also brings divergence compensation with the merit of globally high MP. Moreover, the protocol is immune from the problem of diverging preparation time of probe state that may hinder the conventional linear QRM in application of QM. This work establishes a paradigmatic case of combining different sensitivity resources to manipulate QM and maximize MP.
科研通智能强力驱动
Strongly Powered by AbleSci AI