Data for "Single Atom Imaging with an sCMOS camera"

Single atom imaging requires discrimination of weak photon count events above background and has typically been performed using either EMCCD cameras, photomultiplier tubes or single photon counting modules. sCMOS provides a cost effective and highly scalable alternative to other single atom imaging technologies, offering fast readout and larger sensor dimensions. We demonstrate single atom resolved imaging of two siteaddressable optical traps separated by 10 µm using an sCMOS camera, offering a competitive signal-to-noise ratio at intermediate count rates to allow high fidelity readout discrimination (error < 10 −6 ) and sub-µm spatial resolution for applications in quantum technologies.

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Single atom imaging with an sCMOS camera

Picken

Legaie

Pritchard

2017

Applied Physics Letters

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Data for "Single Atom Imaging with an sCMOS camera"

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Single atom imaging with an sCMOS camera

Single atom imaging with an sCMOS camera

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