Robust Weak Measurements with Certified Single Photons

Enrico Rebufello; Fabrizio Piacentini; Alessio Avella; Muriel A. de Souza; Marco Gramegna; Rudi Lussana; Federica Villa; Jan Dziewior; Eliahu Cohen; Lev Vaidman; Ivo Pietro Degiovanni; Marco Genovese

doi:10.1002/qute.202400482

Robust Weak Measurements with Certified Single Photons

Enrico Rebufello, Fabrizio Piacentini^*, Alessio Avella, Muriel A. de Souza, Marco Gramegna, Rudi Lussana, Federica Villa, Jan Dziewior, Eliahu Cohen, Lev Vaidman, Ivo Pietro Degiovanni, Marco Genovese

^*Corresponding author for this work

School of Physics and Astronomy

Research output: Contribution to journal › Article › peer-review

Abstract

Since their introduction, weak measurements and weak values have served as a cornerstone for investigating quantum measurement theory, as well as a significant tool for quantum metrology and sensing. Here, it is shown how (anomalous) weak values can be reliably obtained with single quantum systems even without averaging over multiple experimental runs, thanks to a measurement protocol dubbed robust weak measurement. Specifically, robust weak measurements are exploited to extract the weak value of the polarization of heralded single photons, certifying the true single-particle, nonclassical nature of weak values.

Original language	English
Journal	Advanced Quantum Technologies
DOIs	https://doi.org/10.1002/qute.202400482
State	Accepted/In press - 2025

Funding

Funders	Funder number
European Union's Horizon Europe research and innovation programme	101178170
QUID
Israel Science Foundation	2208/24, 2689/23
Fondazione San Paolo	2022RATBS4
European Commission in the Digital Europe Programme	101091408, 101091561
European Union's Horizon Europe	101113901

Keywords

single photons
weak measurements
weak values

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10.1002/qute.202400482

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title = "Robust Weak Measurements with Certified Single Photons",

abstract = "Since their introduction, weak measurements and weak values have served as a cornerstone for investigating quantum measurement theory, as well as a significant tool for quantum metrology and sensing. Here, it is shown how (anomalous) weak values can be reliably obtained with single quantum systems even without averaging over multiple experimental runs, thanks to a measurement protocol dubbed robust weak measurement. Specifically, robust weak measurements are exploited to extract the weak value of the polarization of heralded single photons, certifying the true single-particle, nonclassical nature of weak values.",

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author = "Enrico Rebufello and Fabrizio Piacentini and Alessio Avella and {de Souza}, {Muriel A.} and Marco Gramegna and Rudi Lussana and Federica Villa and Jan Dziewior and Eliahu Cohen and Lev Vaidman and Degiovanni, {Ivo Pietro} and Marco Genovese",

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year = "2025",

doi = "10.1002/qute.202400482",

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T1 - Robust Weak Measurements with Certified Single Photons

AU - Rebufello, Enrico

AU - Piacentini, Fabrizio

AU - Avella, Alessio

AU - de Souza, Muriel A.

AU - Gramegna, Marco

AU - Lussana, Rudi

AU - Villa, Federica

AU - Dziewior, Jan

AU - Cohen, Eliahu

AU - Vaidman, Lev

AU - Degiovanni, Ivo Pietro

AU - Genovese, Marco

PY - 2025

Y1 - 2025

N2 - Since their introduction, weak measurements and weak values have served as a cornerstone for investigating quantum measurement theory, as well as a significant tool for quantum metrology and sensing. Here, it is shown how (anomalous) weak values can be reliably obtained with single quantum systems even without averaging over multiple experimental runs, thanks to a measurement protocol dubbed robust weak measurement. Specifically, robust weak measurements are exploited to extract the weak value of the polarization of heralded single photons, certifying the true single-particle, nonclassical nature of weak values.

AB - Since their introduction, weak measurements and weak values have served as a cornerstone for investigating quantum measurement theory, as well as a significant tool for quantum metrology and sensing. Here, it is shown how (anomalous) weak values can be reliably obtained with single quantum systems even without averaging over multiple experimental runs, thanks to a measurement protocol dubbed robust weak measurement. Specifically, robust weak measurements are exploited to extract the weak value of the polarization of heralded single photons, certifying the true single-particle, nonclassical nature of weak values.

KW - single photons

KW - weak measurements

KW - weak values

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Robust Weak Measurements with Certified Single Photons

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