We report the first resonant-cavity-enhanced single photon avalanche diode (RCE SPAD) fabricated on a reflecting silicon-on-insulator (SOI) substrate. The substrate incorporates a two period distributed Bragg reflector fabricated using a commercially available double SOI process. The RCE SPAD detectors have peak photon detection efficiencies ranging from 42% at 780 nm to 34% at 850 nm and an excellent photon timing resolution of 35 ps full width at half maximum. Despite the higher defectivity of double SOI substrates compared to standard silicon substrates, RCE SPADs with 20 m diameter exhibit a fairly low dark count rate (DCR) of 3500 cs-1 at room temperature and a yield of 80%. A DCR less than 50 cs-1 can be attained with these detectors by reducing the temperature down to -15C, while keeping the total afterpulsing probability below 9% with a dead-time of 80 ns.
Resonant-cavity-enhanced single-photon avalanche diodes on double silicon-on-insulator substrates
Piera Maccagnani;
2009
Abstract
We report the first resonant-cavity-enhanced single photon avalanche diode (RCE SPAD) fabricated on a reflecting silicon-on-insulator (SOI) substrate. The substrate incorporates a two period distributed Bragg reflector fabricated using a commercially available double SOI process. The RCE SPAD detectors have peak photon detection efficiencies ranging from 42% at 780 nm to 34% at 850 nm and an excellent photon timing resolution of 35 ps full width at half maximum. Despite the higher defectivity of double SOI substrates compared to standard silicon substrates, RCE SPADs with 20 m diameter exhibit a fairly low dark count rate (DCR) of 3500 cs-1 at room temperature and a yield of 80%. A DCR less than 50 cs-1 can be attained with these detectors by reducing the temperature down to -15C, while keeping the total afterpulsing probability below 9% with a dead-time of 80 ns.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
