Related papers: Evaluating the quantum Ziv-Zakai bound in noisy environments

Evaluating the quantum Ziv-Zakai bound in noisy environments

URL: http://arxiv.org/abs/2203.11436v1
Date: Tue, 22 Mar 2022 03:17:11 GMT
Title: Evaluating the quantum Ziv-Zakai bound in noisy environments
Authors: Shoukang Chang, Wei Ye, Xuan Rao, Huan Zhang, Mengmeng Luo, Yuetao Chen, Shaoyan Gao, and Liyun Hu
Abstract summary: In the highly non-Gaussian regime, the quantum Ziv-Zakai bound (QZZB) provides a lower bound on the available precision. We show its estimation performance for several different Gaussian resources, such as a coherent state (CS), a single-mode squeezed vacuum state (SMSVS) and a two-mode squeezed vacuum state (TMSVS) Our results indicate that compared with the SMSVS and the TMSVS, the QZZB for the CS always shows the better estimation performance under the photon-loss environment.
Score: 6.999303488543395
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: In the highly non-Gaussian regime, the quantum Ziv-Zakai bound (QZZB) provides a lower bound on the available precision, demonstrating the better performance compared with the quantum Cram\'er-Rao bound. However, evaluating the impact of a noisy environment on the QZZB without applying certain approximations proposed by Tsang [Phys. Rev. Lett. 108, 230401 (2012)] remains a difficult challenge. In this paper, we not only derive the general form of the QZZB with the photon loss and the phase diffusion by invoking the technique of integration within an ordered product of operators, but also show its estimation performance for several different Gaussian resources, such as a coherent state (CS), a single-mode squeezed vacuum state (SMSVS) and a two-mode squeezed vacuum state (TMSVS). Our results indicate that compared with the SMSVS and the TMSVS, the QZZB for the CS always shows the better estimation performance under the photon-loss environment. More interestingly, for the phase-diffusion environment, the estimation performance of the QZZB for the TMSVS can be better than that for the CS throughout a wide range of phase-diffusion strength. Our findings will provide a useful guidance for investigating the noisy quantum parameter estimation.

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