Low‐Light Shadow Imaging Using Quadrature‐Noise Detection with a Camera

This paper experimentally demonstrates an imaging technique based on quadrature noise modification after interaction with an opaque object. By using a homodyne‐like detection scheme, the detrimental effect of the camera dark noise is eliminated, making this approach particularly attractive for imagi...

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Veröffentlicht in:	Advanced quantum technologies (Online) 2022-07, Vol.5 (7), p.n/a
Hauptverfasser:	Cuozzo, Savannah L., Barge, Pratik J., Prajapati, Nikunjkumar, Bhusal, Narayan, Lee, Hwang, Cohen, Lior, Novikova, Irina, Mikhailov, Eugeniy E.
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Sprache:	eng
Schlagworte:	imaging quantum noise squeezing
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creator	Cuozzo, Savannah L. Barge, Pratik J. Prajapati, Nikunjkumar Bhusal, Narayan Lee, Hwang Cohen, Lior Novikova, Irina Mikhailov, Eugeniy E.
description	This paper experimentally demonstrates an imaging technique based on quadrature noise modification after interaction with an opaque object. By using a homodyne‐like detection scheme, the detrimental effect of the camera dark noise is eliminated, making this approach particularly attractive for imaging scenarios which require weak illumination. As an example, the image of an object illuminated with a squeezed vacuum is reconstructed using a total of 800 probing photons, utilizing less than one photon per frame on average. This paper experimentally demonstrates an imaging technique based on quadrature noise modification after interaction with an opaque object. By using a homodyne‐like detection scheme, the detrimental effect of the camera dark noise is eliminated, making this approach particularly attractive for imaging scenarios that require weak illumination.
doi_str_mv	10.1002/qute.202100147
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title	Low‐Light Shadow Imaging Using Quadrature‐Noise Detection with a Camera
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