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arxiv: 2405.10525 · v2 · pith:L3WXL7H5new · submitted 2024-05-17 · 🪐 quant-ph

Bayesian Logarithmic Derivative Type Lower Bounds for Quantum Estimation

classification 🪐 quant-ph
keywords bayesianlowerboundboundsestimationquantumapproachderivative
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Bayesian approach for quantum parameter estimation has gained a renewed interest from practical applications of quantum estimation theory. Recently, a lower bound, called the Bayesian Nagaoka-Hayashi bound for the Bayes risk in quantum domain was proposed, which is an extension of a new approach to point estimation of quantum states by Conlon et al. (2021). The objective of this paper is to explore this Bayesian Nagaoka-Hayashi bound further by obtaining its lower bounds. We first obtain one-parameter family of lower bounds, which is an analogue of the Holevo bound in point estimation. Thereby, we derive one-parameter family of Bayesian logarithmic derivative type lower bounds in a closed form for the parameter independent weight matrix setting. This new bound includes previously known Bayesian lower bounds as special cases.

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  1. Closed-form Bayesian quantum estimation of Gaussian states

    quant-ph 2026-05 unverdicted novelty 7.0

    A variational framework yields closed-form Bayesian estimators for Gaussian quantum states via polynomial quadrature operators and a global optimality condition.