%0 Conference Paper
%A Durini, Daniel
%A Weyers, Sascha
%A Goehlich, Andreas
%A Brockherde, Werner
%A Paschen, Uwe
%A Vogt, Holger
%A Federica, Villa
%A Bronzi, Danilo
%A Tisa, Simone
%A Tosi, Alberto
%A Zappa, Franco
%T CMOS Technology for SPAD / SiPM: Results from the MiSPiA Project
%M FZJ-2014-03352
%D 2014
%X Many demanding applications require single-photon detectors with very large active area, very low noise, high detection efficiency, and precise time response. Single-photon avalanche diodes (SPADs) provide all the advantages of solid-state devices, but in many applications other single-photon detectors, like photomultiplier tubes, have been preferred so far due to their larger active area. We developed silicon SPADs with active area diameters as large as 500 µm in a fully standard CMOS process. The 500 µm SPAD exhibits 55% peak photon detection efficiency at 420 nm, 8 kcps of dark counting rate at 0°C, and high uniformity of the sensitivity in the active area. These devices can be used with on-chip integrated quenching circuitry, which reduces the afterpulsing probability, or with external ciruits to achieve even better photon-timing performances, as good as 92 ps FWHM for a 100 µm diameter SPAD. Owing to the state-of-the-art performance, not only compared to the CMOS SPADs but also SPADs developed in custom technologies, very high uniformity and low cros-talk probability, these CMOS SPADs can be succesfully employed in detector arrays and single-chip imagers for single-photon counting and timing applications. In order to solve the CMOS SPAD fill-factor problems, back-side illuminated SPAD (BackSPAD) technology was developed based on a 0.35 µm SOI-CMOS process, where the wafer containing readout circuitry fabricated in a standard CMOS technology is flip-bonded on top of the detector array SOI-wafer, the handle-wafer of which is then completely removed to enable back-side illumination.
%B 7th Fraunhofer IMS Workshop "CMOS Imaging: From Photon to Camera", Duisburg, Germany, May 20-21, 2014
%C 20 May 2014 - 21 May 2014, Duisburg (Germany)
Y2 20 May 2014 - 21 May 2014
M2 Duisburg, Germany
%F PUB:(DE-HGF)6
%9 Conference Presentation
%U https://juser.fz-juelich.de/record/153873