Skip Navigation
SBIR/STTR

Hole-Initiated-Avalanche, Linear-Mode, Single-Photon-Sensitive Avalanche Photodetector with Reduced Excess Noise and Low Dark Count Rate, Phase I

Completed Technology Project

Project Introduction

Hole-Initiated-Avalanche, Linear-Mode, Single-Photon-Sensitive Avalanche Photodetector with Reduced Excess Noise and Low Dark Count Rate, Phase I
A radiation hard, single photon sensitive InGaAs avalanche photodiode (APD) receiver technology will be demonstrated useful for long range space based optical telecommunications in the spectral range from 1000 to 1600 nm. The innovation is based on a linear mode (lm) single photon sensitive APD technology for which avalanche gain as high as M = 8000 has been demonstrated. Single photon detection efficiency (PDE) up to 80% has been demonstrated at 1064 nm, as well as maximum count rates in excess of 300 MHz. In the proposed effort, the dark count rate of these detectors will be reduced to the order of kHz while preserving PDE and maximum count rate. Detector dark current will be lowered by two orders of magnitude through implementation of the APD design using aluminum-free alloys with 100x lower trap density than the current design. In Phase I, a series of single element detectors of varying diameter, as well as small sized arrays, will be fabricated from the new aluminum-free material, and the corresponding decrease in dark count rate will be measured. In Phase II, radiation and lifetime testing will be repeated for the aluminum-free design, and large-area segmented detectors will be coupled to readout integrated circuits and demonstrated. Voxtel anticipates that its technology will enter the program at TRL=4, finish Phase I at TRL=5, and exit the Phase II program at TRL=6. More »

Primary U.S. Work Locations and Key Partners

Project Library

Share this Project

Organizational Responsibility

Project Management

Project Duration

This is a historic project that was completed before the creation of TechPort on October 1, 2012. Available data has been included. This record may contain less data than currently active projects.

^