<scp>Sirius</scp>: a prototype astronomical intensity interferometer using avalanche photodiodes in linear mode

Oh, Junghwan; Wagner, Jan; Trippe, Sascha; Lee, Taeseok; Lee, Bangwon; Kim, Chang Hee

doi:10.1093/mnras/staa3584

Cited by 1 publication

(1 citation statement)

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“…This also implies that the detection rate is only limited by the bandwidth of the APD and the pre-amplifier circuit, meaning that detection rates in excess of 1 GHz can be achieved with such detectors, surpassing other single photon detection technologies by a factor 10 to 1000 [1,2]. Such high-count rates make HgCdTe APDs interesting candidates for high data rate classical free-space optical communications (FSO) [3][4][5], quantum communications [6], and astronomy [7]. Concerning their applications in long-distance free-space communications, previous use of detector modules based on linear-mode HgCdTe APDs include: a 2×8 pixel detector by DRS Technologies in the framework of the NASA's sponsored In-space Validation of Earth Science Technologies (InVEST) program [3,8].…”

Section: Introductionmentioning

confidence: 99%

Reaching GHz single photon detection rates with HgCdTe avalanche photodiodes detectors

Pes

Rothman

Bleuet

et al. 2021

International Conference on Space Optics — ICSO 2020

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In the present communication, the characterization results of an in-house developed four-quadrants detection module based on HgCdTe APDs and a Si-CMOS ROIC pre-amplifier is discussed. The module has been designed to be employed as high data rate ground-segment detector for 1.55 μm long-distance free-space optical communication links in the framework of a project funded by the European Space Agency. The detector is characterized by a multiplication gain in excess of M = 150, a ROIC input referred noise of Ne = 45 electrons rms and a measured bandwidth of BW = 450 MHz. These characteristics enable the linear-mode detection of meso-photonic states ranging from tens of photons per pulse down to the single-photon level at high count rates exceeding 500 MHz per quadrant (and 2 GHz if the signal is dispatched over all four-quadrants). For the present module, the performance for PPM and OOK modulation formats was estimated and its potentiality for long-distance free-space optical communications employing these modulation formats was validated. In particular, for the PPM format, a detection probability of 0.9 and a false alarm probability of 10 -2 , a minimum PPM slot width of 500 ps and a temporal jitter with a FWHM ~ 160 ps were estimated, for an incident photonic state with 10 photons/pulse. The potentiality of the detector for 625 Mbps OOK modulation format was also evaluated and compared with a quantum limited situation. In this case, a -3.9 dB penalty from the quantum limited BER was obtained. A new generation of detectors is currently in development, which is expected to further improve the performance.

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