Enhanced parameter estimation by measurement of non-Hermitian operators

Jianning Li, Haodi Liu, Zhihai Wang, X. X. Yi
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引用次数: 0

Abstract

Quantum metrology aims at delivering new quantum-mechanical improvement to technologies of parameter estimations with precision bounded by the quantum Cramér-Rao bound. The currently used quantum Cramér-Rao bound was established with measurements of observables restricted to be Hermitian. This constrains the bound and limits the precision of parameter estimation. In this paper, we lift the constraint and derive a previously unknown quantum Cramér-Rao bound. We find that the new bound can reach arbitrary small value with mixed states and it breaks the Heisenberg limit in some cases. We construct a setup to measure non-Hermitian operators and discuss the saturation of the present bound. Two examples—the phase estimation with Greenberger-Horne-Zeilinger states of trapped ions and the adiabatic quantum parameter estimation with the nuclear magnetic resonance—are employed to demonstrate the theory. The present study might open a new research direction—non-Hermitian quantum metrology.

通过测量非赫米提算子增强参数估计
量子计量学旨在为参数估计技术提供新的量子力学改进,其精度以量子克拉梅尔-拉奥约束为界。目前使用的量子克拉梅尔-拉奥约束是在测量被限制为赫米特的观测变量时建立的。这就约束了边界并限制了参数估计的精度。在本文中,我们取消了这一限制,并推导出了一个之前未知的量子克拉梅尔-拉奥约束。我们发现,新约束可以达到混合态的任意小值,并且在某些情况下打破了海森堡极限。我们构建了一个测量非赫米提算子的装置,并讨论了当前约束的饱和问题。我们用两个例子--用格林伯格-霍恩-蔡林格困离子态进行相位估计和用核磁共振进行绝热量子参数估计--来证明这一理论。本研究可能会开辟一个新的研究方向--非赫米提量子计量学。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
8.20
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