Academic literature on the topic 'Quantum illumination'

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Journal articles on the topic "Quantum illumination"

1

Benka, Stephen G. "Quantum illumination." Physics Today 66, no. 7 (2013): 18. http://dx.doi.org/10.1063/pt.3.2036.

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2

Browne, D. "Quantum Illumination." Science 340, no. 6138 (2013): 1290. http://dx.doi.org/10.1126/science.1238809.

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3

Shapiro, Jeffrey H. "The Quantum Illumination Story." IEEE Aerospace and Electronic Systems Magazine 35, no. 4 (2020): 8–20. http://dx.doi.org/10.1109/maes.2019.2957870.

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4

Gregory, T., P. A. Moreau, E. Toninelli, and M. J. Padgett. "Imaging through noise with quantum illumination." Science Advances 6, no. 6 (2020): eaay2652. http://dx.doi.org/10.1126/sciadv.aay2652.

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The contrast of an image can be degraded by the presence of background light and sensor noise. To overcome this degradation, quantum illumination protocols have been theorized that exploit the spatial correlations between photon pairs. Here, we demonstrate the first full-field imaging system using quantum illumination by an enhanced detection protocol. With our current technology, we achieve a rejection of background and stray light of up to 5.8 and also report an image contrast improvement up to a factor of 11, which is resilient to both environmental noise and transmission losses. The quantum illumination protocol differs from usual quantum schemes in that the advantage is maintained even in the presence of noise and loss. Our approach may enable laboratory-based quantum imaging to be applied to real-world applications where the suppression of background light and noise is important, such as imaging under low photon flux and quantum LIDAR.
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5

Karsa, Athena, and Stefano Pirandola. "Noisy Receivers for Quantum Illumination." IEEE Aerospace and Electronic Systems Magazine 35, no. 11 (2020): 22–29. http://dx.doi.org/10.1109/maes.2020.3004019.

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6

Shapiro, Jeffrey H., Zheshen Zhang, and Franco N. C. Wong. "Secure communication via quantum illumination." Quantum Information Processing 13, no. 10 (2013): 2171–93. http://dx.doi.org/10.1007/s11128-013-0662-1.

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7

Nair, Ranjith, and Mile Gu. "Fundamental limits of quantum illumination." Optica 7, no. 7 (2020): 771. http://dx.doi.org/10.1364/optica.391335.

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8

Pirandola, Stefano. "On quantum reading, quantum illumination, and other notions." IOP SciNotes 2, no. 1 (2021): 015203. http://dx.doi.org/10.1088/2633-1357/abe99e.

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9

Bykov A. A., Nomokonov D. V., Goran A. V., Strygin I. S., Marchishin I. V., and Bakarov A. K. "Impact of illumination on quantum lifetime in selectively doped GaAs single quantum wells with short-period AlAs/GaAs superlattice barriers." Semiconductors 57, no. 3 (2023): 180. http://dx.doi.org/10.21883/sc.2023.03.56233.4840.

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Impact of illumination on high-mobility dense 2D electron gas in selectively doped single GaAs quantum well with short-period AlAs/GaAs superlattice barriers at T=4.2 K in magnetic fields B<2 T has been studied. It was demonstrated that illumination at low temperatures gives rise to enhancement of electron density, mobility and quantum lifetime in studied heterostructures. The enhancement of quantum lifetime after illumination for single GaAs quantum well with modulated superlattice doping had been explained as consequence of decrease in effective concentration of remote ionized donors. Keywords: persistent photoconductivity, quantum lifetime, anisotropic mobility, superlattice barriers.
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10

Zhang, Tiantian, Zhiyuan Ye, Hai-Bo Wang, and Jun Xiong. "Quantum-illumination-inspired active single-pixel imaging with structured illumination." Applied Optics 60, no. 32 (2021): 10151. http://dx.doi.org/10.1364/ao.438642.

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