Average number is an insufficient metric for interferometry

Branford, Dominic; Rubio, Jesús

doi:10.1088/1367-2630/ac3571

New J. Phys.

2021

DOI: 10.1088/1367-2630/ac3571

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Average number is an insufficient metric for interferometry

Dominic Branford

Jesús Rubio

Abstract: We argue that analysing schemes for metrology solely in terms of the average particle number can obscure the number of particles effectively used in informative events. For a number of states we demonstrate that, in both frequentist and Bayesian frameworks, the average number of a state can essentially be decoupled from the aspects of the total number distribution associated with any metrological advantage.

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Cited by 3 publications

References 71 publications

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Bayesian quantum phase estimation with fixed photon states

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2024

Phys. Rev. A

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Combining quantum and Bayesian principles leads to optimality in metrology, but the optimization equations involved are often hard to solve. This Letter mitigates this problem with a class of measurement strategies for quantities isomorphic to location parameters, which are shown to admit a closed-form optimization. The resulting framework admits any parameter range, prior information, or state, and the associated estimators apply to finite samples. As an example, the metrology of relative weights is formulated from first principles and shown to require hyperbolic errors. The primary advantage of this approach lies in its simplifying power: it reduces the search for good strategies to identifying which symmetry leaves a state of maximum ignorance invariant. This will facilitate the application of quantum metrology to fundamental physics, where symmetries play a key role. Published by the American Physical Society 2024

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Realistic model of entanglement-enhanced sensing in optical fibers

Krueper

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et al. 2022

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Experimental limitations such as optical loss and noise have prevented entanglement-enhanced measurements from demonstrating a significant quantum advantage in sensitivity. Holland-Burnett entangled states can mitigate these limitations and still present a quantum advantage in sensitivity. Here we model a fiber-based Mach-Zehnder interferometer with internal loss, detector efficiency, and external phase noise and without pure entanglement. This model features a practical fiber source that transforms the two-mode squeezed vacuum (TMSV) into Holland-Burnett entangled states. We predict that a phase sensitivity 28% beyond the shot noise limit is feasible with current technology. Simultaneously, a TMSV source can provide about 25 times more photon flux than other entangled sources. This system will make fiber-based quantum-enhanced sensing accessible and practical for remote sensing and probing photosensitive materials.

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Average number is an insufficient metric for interferometry

Cited by 3 publications

References 71 publications

Bayesian quantum phase estimation with fixed photon states

Bayesian quantum phase estimation with fixed photon states

First-principles construction of symmetry-informed quantum metrologies

Realistic model of entanglement-enhanced sensing in optical fibers

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