Title :
Very large arrays of flip-chip bonded 1.55 μm photodetectors
Author :
Goossen, Keith W. ; Cunningham, J.E. ; Zhang, G. ; Walker, J.A.
Author_Institution :
Lucent Technol., Bell Labs., Holmdel, NJ, USA
fDate :
6/1/1998 12:00:00 AM
Abstract :
We present very large arrays of InGaAs-InP p-i-n photodetectors flip-chip bonded to Si. The photodiodes are designed for operation at zero bias, e.g., for spectroscopic applications. Our design maintains depletion at zero bias resulting in ~99% photocurrent collection efficiency. The series resistance of our photodiodes is <1 Ω for a 40×40 μm device, including the flip-chip bond, resulting in high tolerance to shunt leakage. We produce arrays of photodiodes as large as 120 and measure leakage currents. We analyze zero-bias photocurrent generation in the presence of leakage and determine that with this technology arrays as large as 128 can be produced with high yield. The concept of redundancy in zero-bias photodiode arrays is presented and explored. Under the assumption that photodiode leakage is produced by microscopic point defects, a substantial increase in uniformity can be achieved in photodetector arrays by employing redundancy
Keywords :
III-V semiconductors; arrays; flip-chip devices; gallium arsenide; indium compounds; infrared detectors; leakage currents; p-i-n photodiodes; photodetectors; 1.55 mum; 40 micron; InGaAs-InP; InGaAs-InP p-i-n photodetectors; flip-chip bonded IR photodetectors; microscopic point defects; photocurrent collection efficiency; shunt leakage; spectroscopic applications; very large arrays; zero bias; zero-bias photocurrent generation; Bonding; Current measurement; Electrical resistance measurement; Leakage current; Microscopy; PIN photodiodes; Photoconductivity; Photodetectors; Redundancy; Spectroscopy;
Journal_Title :
Lightwave Technology, Journal of
