Quantum enhancement of accuracy and precision in optical interferometry View Full Text


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Article Info

DATE

2017-11-26

AUTHORS

Florian Kaiser, Panagiotis Vergyris, Djeylan Aktas, Charles Babin, Laurent Labonté, Sébastien Tanzilli

ABSTRACT

White-light interferometry is one of today's most precise tools for determining the properties of optical materials. Its achievable precision and accuracy are typically limited by systematic errors due to a high number of interdependent data-fitting parameters. Here, we introduce spectrally resolved quantum white-light interferometry as a novel tool for optical property measurements, notably, chromatic dispersion in optical fibres. By exploiting both spectral and photon-number correlations of energy-time entangled photon pairs, the number of fitting parameters is significantly reduced, which eliminates systematic errors and leads to an absolute determination of the material parameter. By comparing the quantum method to state-of-the-art approaches, we demonstrate the quantum advantage of 2.4 times better measurement precision, despite requiring 62 times fewer photons. The improved results are due to conceptual advantages enabled by quantum optics, which are likely to define new standards in experimental methods for characterising optical materials. More... »

PAGES

17163

References to SciGraph publications

Identifiers

URI

http://scigraph.springernature.com/pub.10.1038/lsa.2017.163

DOI

http://dx.doi.org/10.1038/lsa.2017.163

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1101697417

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/30839519


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43 schema:description White-light interferometry is one of today's most precise tools for determining the properties of optical materials. Its achievable precision and accuracy are typically limited by systematic errors due to a high number of interdependent data-fitting parameters. Here, we introduce spectrally resolved quantum white-light interferometry as a novel tool for optical property measurements, notably, chromatic dispersion in optical fibres. By exploiting both spectral and photon-number correlations of energy-time entangled photon pairs, the number of fitting parameters is significantly reduced, which eliminates systematic errors and leads to an absolute determination of the material parameter. By comparing the quantum method to state-of-the-art approaches, we demonstrate the quantum advantage of 2.4 times better measurement precision, despite requiring 62 times fewer photons. The improved results are due to conceptual advantages enabled by quantum optics, which are likely to define new standards in experimental methods for characterising optical materials.
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