Bruno Dion scite author profile

The properties of avalanche photodiodes and associated electronics required for photon counting in the Geiger and the sub-Geiger modes are reviewed. When the Geiger mode is used, there are significant improvements reported in overall photon detection efficiencies (approaching 70% at 633 nm), and a timing jitter (under 200 ps) is achieved with passive quenching at high overvoltages (20-30 V). The results obtained by using an active-mode fast quench circuit capable of switching overvoltages as high as 15 V (giving photon detection efficiencies in the 50% range) with a dead time of less than 50 ns are reported. Larger diodes (up to 1 mm in diameter) that are usable in the Geiger mode and that have quantum efficiencies over 80% in the 500-800-nm range are also reported.

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<title>Photon-counting techniques with silicon avalanche photodiodes</title>

Dautet

Deschamps

Dion

et al. 1993

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A 39-photon/bit direct-detection receiver at 810 nm, BER = 1x10-6, 60-Mbit/s QPPM

MacGregor¹,

Dion²,

Noeldeke

et al. 1991

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An overview of optical receiver module performance for eye-safe range finding, and lidar applications based on novel InGaAs APDs

Dion¹,

Tommaso²,

Lepage³

et al. 2005

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Improved performance ladar receiver

Dion¹,

Bélanger²,

Lauzon³

et al. 2010

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Bruno Dion

Photon counting techniques with silicon avalanche photodiodes

<title>Photon-counting techniques with silicon avalanche photodiodes</title>

A 39-photon/bit direct-detection receiver at 810 nm, BER = 1x10-6, 60-Mbit/s QPPM

An overview of optical receiver module performance for eye-safe range finding, and lidar applications based on novel InGaAs APDs

Improved performance ladar receiver

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