Quantum noise radar: Superresolution with quantum antennas by accessing spatiotemporal correlations

I. Peshko; D. Mogilevtsev; I. Karuseichyk; A. Mikhalychev; A. P. Nizovtsev; G. Y.A. Slepyan; A. Boag

doi:10.1364/OE.27.029217

Quantum noise radar: Superresolution with quantum antennas by accessing spatiotemporal correlations

I. Peshko, D. Mogilevtsev, I. Karuseichyk, A. Mikhalychev, A. P. Nizovtsev, G. Y.A. Slepyan, A. Boag

School of Electrical Engineering

Tel Aviv University

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

Abstract

We suggest overcoming the “Rayleigh catastrophe” and reaching superresolution for imaging with both spatially and temporally correlated field of a superradiant quantum antenna. Considering far-field radiation of two interacting spontaneously emitting two-level systems, we show that for the measurement of the temporally delayed second-order correlation function of the scattered field, the Fisher information does not tend to zero with diminishing the distance between a pair of scatterers even for non-sharp time-averaged detection. For position estimation of more scatterers, the measurement of the time-delayed function is able to provide a considerable accuracy gain over the zero-delayed function. We also show that the superresolution with the considered quantum antenna can be achieved for both near-field imaging and for estimating the antenna parameters.

Original language	English
Pages (from-to)	29217-29231
Number of pages	15
Journal	Optics Express
Volume	27
Issue number	20
DOIs	https://doi.org/10.1364/OE.27.029217
State	Published - 30 Sep 2019

All Science Journal Classification (ASJC) codes

Atomic and Molecular Physics, and Optics

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Cite this

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title = "Quantum noise radar: Superresolution with quantum antennas by accessing spatiotemporal correlations",

abstract = "We suggest overcoming the “Rayleigh catastrophe” and reaching superresolution for imaging with both spatially and temporally correlated field of a superradiant quantum antenna. Considering far-field radiation of two interacting spontaneously emitting two-level systems, we show that for the measurement of the temporally delayed second-order correlation function of the scattered field, the Fisher information does not tend to zero with diminishing the distance between a pair of scatterers even for non-sharp time-averaged detection. For position estimation of more scatterers, the measurement of the time-delayed function is able to provide a considerable accuracy gain over the zero-delayed function. We also show that the superresolution with the considered quantum antenna can be achieved for both near-field imaging and for estimating the antenna parameters.",

author = "I. Peshko and D. Mogilevtsev and I. Karuseichyk and A. Mikhalychev and Nizovtsev, {A. P.} and Slepyan, {G. Y.A.} and A. Boag",

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doi = "10.1364/OE.27.029217",

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AU - Peshko, I.

AU - Mogilevtsev, D.

AU - Karuseichyk, I.

AU - Mikhalychev, A.

AU - Nizovtsev, A. P.

AU - Slepyan, G. Y.A.

AU - Boag, A.

PY - 2019/9/30

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AB - We suggest overcoming the “Rayleigh catastrophe” and reaching superresolution for imaging with both spatially and temporally correlated field of a superradiant quantum antenna. Considering far-field radiation of two interacting spontaneously emitting two-level systems, we show that for the measurement of the temporally delayed second-order correlation function of the scattered field, the Fisher information does not tend to zero with diminishing the distance between a pair of scatterers even for non-sharp time-averaged detection. For position estimation of more scatterers, the measurement of the time-delayed function is able to provide a considerable accuracy gain over the zero-delayed function. We also show that the superresolution with the considered quantum antenna can be achieved for both near-field imaging and for estimating the antenna parameters.

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JO - Optics Express

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Quantum noise radar: Superresolution with quantum antennas by accessing spatiotemporal correlations

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