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Bayesian quantum phase estimation with fixed photon states

Quantum Physics 2024-10-30 v2

Abstract

We consider a two-mode bosonic state with fixed photon number nNn \in \mathbb{N}, whose upper and lower modes pick up a phase ϕ\phi and ϕ-\phi respectively. We compute the optimal Fock coefficients of the input state, such that the mean square error (MSE) for estimating ϕ\phi is minimized while the minimum MSE is always attainable by a measurement. Our setting is Bayesian, i.e., we consider ϕ\phi to be a random variable that follows a prior probability distribution function (PDF). Initially, we consider the flat prior PDF and we discuss the well-known fact that the MSE is not an informative tool for estimating a phase when the variance of the prior PDF is large. Therefore, we move on to study truncated versions of the flat prior in both single-shot and adaptive approaches. For our adaptive technique we consider n=1n=1 and truncated prior PDFs. Each subsequent step utilizes as prior PDF the posterior probability of the previous step and at the same time we update the optimal state and optimal measurement.

Keywords

Cite

@article{arxiv.2308.01293,
  title  = {Bayesian quantum phase estimation with fixed photon states},
  author = {Boyu Zhou and Saikat Guha and Christos N. Gagatsos},
  journal= {arXiv preprint arXiv:2308.01293},
  year   = {2024}
}

Comments

Substantial additions on truncated flat prior probability density functions. Corrected a few typos. Cleaner presentation of new and previous results. Comments are welcome

R2 v1 2026-06-28T11:46:39.414Z