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March 2023 : New paper published in PNAS
We present a full-field, homodyne imaging system capable of imaging at the single-photon level in the shortwave infrared, despite the camera having a noise floor ≈200 times higher.
Near single-photon imaging in the shortwave infrared using homodyne detection.
O. Wolley, S. Mekhail, P.-A. Moreau, T. Gregory, G. Gibson, G. Leuchs & M. Padgett
PNAS, 120, e2216678120 (2023)
December 2022 : New paper is out
How quantum imaging concepts can inspire the design of a light field camera able to perform Giga-pixel acquisitions, allowing wide refocusing depth, and realistic angular reconstructions.
Computational version of the correlation light-field camera.
T. Gregory, M. Edgar, G. Gibson & P.-A. Moreau
Scientific Reports, 12, 21409 (2022)
August 2022 : Find our new pre-print on Arxiv
Using Homodyne detection to image through Camera noise in the Short Wave Infrared
Collaboration University of Glasgow and Max Planck Institute for the Science of Light
Imaging below the camera noise floor with a homodyne microscope.
O. Wolley, S. Mekhail, P.-A. Moreau, T. Gregory, G. Gibson, G. Leuchs & M. Padgett
Preprint, arXiv:2208.04898 (2022)
August 2022 : Paul-Antoine Moreau was awarded a Yu-Shan young scholar Fellowship, Ministry of Education, Taiwan, 2022
September 2022 : Welcome Guo-Cheng to the group !
December 2021 : Group financed by the Ministry of Science and Technology (MOST) Taiwan
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