2014
DOI: 10.1098/rsta.2013.0100
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Single-photon imaging in complementary metal oxide semiconductor processes

Abstract: This paper describes the basics of single-photon counting in complementary metal oxide semiconductors, through single-photon avalanche diodes (SPADs), and the making of miniaturized pixels with photon-counting capability based on SPADs. Some applications, which may take advantage of SPAD image sensors, are outlined, such as fluorescence-based microscopy, three-dimensional time-of-flight imaging and biomedical imaging, to name just a few. The paper focuses on architectures that are best suited to those applicat… Show more

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Cited by 134 publications
(101 citation statements)
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“…In addition, the recent development of SPAD array detectors with picosecond timing capabilities hold great promise for the advancement of time-resolved fluorescence microscopy [57] as discussed below.…”
Section: Fluorescence Microscopy and Fluorescence Lifetime Imaging (Fmentioning
confidence: 99%
“…In addition, the recent development of SPAD array detectors with picosecond timing capabilities hold great promise for the advancement of time-resolved fluorescence microscopy [57] as discussed below.…”
Section: Fluorescence Microscopy and Fluorescence Lifetime Imaging (Fmentioning
confidence: 99%
“…Such a signal level can be easily detected and quantized into two logic levels since the number of incident photons during the period of detection is assumed to be much less than one. But these devices present the following disadvantages [13]. First, they are limited to the case of single photon detection.…”
Section: Downscaling Effects Towards Photon Counting Capability In Cismentioning
confidence: 99%
“…With a read noise below 0.3 e − rms , it becomes possible to count the photoelectrons with an accuracy of 90 %. The only commercial solid state semiconductor devices reaching this limit are electron multiplication CCDs (EMCCDs) [12], avalanche photodiodes (APDs) and single photon avalanche photo diodes (SPADs) [13]. All these devices introduce amplification at the early stage of the photoelectron generation by applying an electric field high enough to accelerate the photoelectron in order to multiply by impact ionisation or trigger an avalanche effect.…”
Section: Why Ultra Low Noise Cmos Image Sensorsmentioning
confidence: 99%
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