Critical Sensing with a Single Bosonic Mode Without Boson–Boson Interactions

IF 4.4 Q1 OPTICS Advanced quantum technologies Pub Date : 2024-08-01 DOI:10.1002/qute.202400105
Ken Chen, Jia-Hao Lü, Xin Zhu, Hao-Long Zhang, Wen Ning, Zhen-Biao Yang, Shi-Biao Zheng
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Abstract

Critical phenomena of quantum systems are useful for enhancement of quantum sensing. However, experimental realizations of criticality enhancement are confined to very few systems, owing to the stringent requirements, including the thermodynamical or scaling limit, and fine control of interacting quantum subsystems or particles. Here, a simple critical quantum sensing scheme is proposed that requires neither of these conditions. The critical system is realized with a single parametrically-driven bosonic mode involving many non-interacting bosons. The quantum Fisher information is calculated, which confirms the criticality-enabled enhancement. The response of one of the quadratures to the variation of the control parameter is further detailed. The numerical results reveal that its inverted variance exhibits a diverging behavior at the critical point. Based on the presently available control techniques of parametric driving, it is expected that scheme can be realized in different systems, e.g., ion traps and superconducting circuits.

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无玻色子-玻色子相互作用的单玻色子模式临界传感
量子系统的临界现象有助于增强量子传感。然而,由于严格的要求,包括热力学或缩放极限,以及对相互作用的量子子系统或粒子的精细控制,临界增强的实验实现仅限于极少数系统。在这里,我们提出了一个简单的临界量子传感方案,它不需要这些条件。临界系统是通过涉及许多非相互作用玻色子的单一参数驱动玻色子模式实现的。计算出的量子费雪信息证实了临界增强功能。其中一个四元数对控制参数变化的响应得到了进一步详细说明。数值结果显示,它的倒方差在临界点表现出发散行为。根据目前可用的参数驱动控制技术,该方案有望在不同系统中实现,例如离子阱和超导电路。
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7.90
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