Michael Keach scite author profile

The uses of a silicon-pixel camera with very good time resolution (∼nanosecond) for detecting multiple, bunched optical photons is explored. We present characteristics of the camera and describe experiments proving its counting capabilities. We use a spontaneous parametric down-conversion source to generate correlated photon pairs, and exploit the Hong-Ou-Mandel (HOM) interference effect in a fiber-coupled beam splitter to bunch the pair onto the same output fiber. It is shown that the time and spatial resolution of the camera enables independent detection of two photons emerging simultaneously from a single spatial mode.

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Quantum-assisted optical interferometers: instrument requirements

Nomerotski

Slosar

Vintskevich

et al. 2020

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Novel imaging technique for α-particles using a fast optical camera

et al. 2021

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A: A new imaging technique for α-particles using a fast optical camera focused on a thin scintillator is presented. As α-particles interact in a thin layer of LYSO fast scintillator, they produce a localized flash of light. The light is collected with a lens to an intensified optical camera, Tpx3Cam, with single photon sensitivity and excellent spatial & temporal resolutions. The interactions of photons with the camera is reconstructed by means of a custom algorithm, capable of discriminating single photons using time and spatial information.

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Increasing baselines and precision of optical interferometers using two-photon interference effects

Keach

Bellavia

Chen

et al. 2022

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Fast imaging of single photons in quantum assisted optical interferometers

Nomerotski¹,

Schiff²,

Keach³

et al. 2021

Preprint

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Michael Keach

Counting of Hong-Ou-Mandel Bunched Optical Photons Using a Fast Pixel Camera

Quantum-assisted optical interferometers: instrument requirements

Novel imaging technique for α-particles using a fast optical camera

Increasing baselines and precision of optical interferometers using two-photon interference effects

Fast imaging of single photons in quantum assisted optical interferometers

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