Reliable InP-based Geiger-mode Avalanche Photodiode Arrays

Author(s)

Smith, Gary M.; McIntosh, K. Alexander; Donnelly, Joseph P.; Funk, Joseph E.; Mahoney, Leonard J.; Verghese, Simon; ... Show more Show less

Abstract

Arrays as large as 256 x 64 of single-photon counting avalanche photodiodes have been developed for defense applications in free-space communication and laser radar. Focal plane arrays (FPAs) sensitive to both 1.06 and 1.55 µm wavelength have been fabricated for these applications. At 240 K and 4 V overbias, the dark count rate (DCR) of 15 µm diameter devices is typically 250 Hz for 1.06 µm sensitive APDs and 1 kHz for 1.55 µm APDs. Photon detection efficiencies (PDE) at 4 V overbias are about 45% for both types of APDs. Accounting for microlens losses, the full FPA has a PDE of 30%. The reset time needed for a pixel to avoid afterpulsing at 240 K is about 3-4 µsec. These devices have been used by system groups at Lincoln Laboratory and other defense contractors for building operational systems. For these fielded systems the device reliability is a strong concern. Individual APDs as well as full arrays have been run for over 1000 hrs of accelerated testing to verify their stability. The reliability of these GM-APDs is shown to be under 10 FITs at operating temperatures of 250 K, which also corresponds to an MTTF of 17,100 yrs.

Date issued

2009-04

URI

http://hdl.handle.net/1721.1/52685

Department

Lincoln Laboratory

Journal

Proceedings of SPIE--the International Society for Optical Engineering

Publisher

Society of Photo-optical Instrumentation Engineers

Citation

Smith, Gary M. et al. “Reliable InP-based Geiger-mode avalanche photodiode arrays.” Advanced Photon Counting Techniques III. Ed. Mark A. Itzler & Joe C. Campbell. Orlando, FL, USA: SPIE, 2009. 73200R-10. © 2009 SPIE

Version: Final published version

Other identifiers

SPIE CID: 73200R-10

ISSN

0277-786X