1. Meso-photonic Detection with HgCdTe APDs at High Count Rates.
- Author
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Rothman, Johan, Pes, Salvatore, Bleuet, Pierre, Abergel, Julie, Gout, Sylvain, Nicolas, Jean-Alain, Rostaing, Jean-Pierre, Renet, Sebastien, Mathieu, Lydie, and Le Perchec, Jérôme
- Subjects
PHOTON detectors ,AVALANCHE photodiodes ,CMOS amplifiers ,LASER pulses ,PHOTONS ,SPECIAL effects in lighting ,ULTRASHORT laser pulses - Abstract
The characterization results and analysis from the detection of meso-photonic laser pulses, characterized by zero to tens of photons per pulse, using an in-house developed detector module based on HgCdTe avalanche photodiodes (APDs) are reported. In this detector module, HgCdTe APDs is hybridized to a specifically developed Si CMOS amplifier circuit with a low input noise and high bandwidth of 400 MHz that is shown to be capable of detecting single photon events at APD gain in excess of 100. The use of a Si CMOS amplifier with a high bandwidth is crucial to detect pulsed signals at high rates. With the present detector, this has enabled to detect temporally distinguishable single photon events up to a record rate of 500 MHz on a single solid-state detector. The capacity of the detector to characterize mesoscopic light states was demonstrated on an input state of an average of μ= 1.6 photons using a fitting procedure to extract the timing and amplitude of each pulse. This analog approach to analyze the detection of meso-photonic light is shown to be efficient to estimate the attenuated photon state and to calibrate detector characteristics such as the event detection efficiency (87%), the multiplication gain distribution and corresponding excess noise factor (F = 1.33) and the timing jitter distribution with a full width half maximum of FWHM= 277 ps. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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