Title :
InGaAs-based high-performance p-i-n photodiodes
Author :
Kimukin, Ibrahim ; Biyikli, Necmi ; Butun, Bayram ; Aytur, Orhan ; Ünlü, Selim M. ; Ozbay, Ekmel
Author_Institution :
Dept. of Phys., Bilkent Univ., Ankara, Turkey
fDate :
3/1/2002 12:00:00 AM
Abstract :
We have designed, fabricated, and characterized high-speed and high-efficiency InGaAs-based p-i-n photodetectors with a resonant cavity enhanced structure. The devices were fabricated by a microwave-compatible process. By using a postprocess recess etch, we tuned the resonance wavelength from 1605 to 1558 nm while keeping the peak efficiencies above 60%. The maximum quantum efficiency was 66% at 1572 nm which was in good agreement with our theoretical calculations. The photodiode had a linear response up to 6-mW optical power, where we obtained 5-mA photocurrent at 3-V reverse bias. The photodetector had a temporal response of 16 ps at 7-V bias. After system response deconvolution, the 3-dB bandwidth of the device was 31 GHz, which corresponds to a bandwidth-efficiency product of 20 GHz.
Keywords :
Fabry-Perot resonators; III-V semiconductors; gallium arsenide; indium compounds; infrared detectors; p-i-n photodiodes; passivation; photodetectors; rapid thermal annealing; 1572 nm; 1605 to 1558 nm; 31 GHz; 5 mA; 6 mW; Fabry-Perot resonant microcavity; InGaAs; bandwidth-efficiency product; bottom Bragg mirror; breakdown voltages; epitaxial structure; higb-efficiency photodetectors; high-performance p-i-n photodiodes; high-speed photodetectors; linear grading; linear response; maximum quantum efficiency; microwave-compatible process; ohmic contacts; passivation; postprocess recess etch; rapid thermal annealed; resonant cavity enhanced structure; system response deconvolution; temporal response; Bandwidth; Deconvolution; Etching; High speed optical techniques; Microwave devices; PIN photodiodes; Photoconductivity; Photodetectors; Quantum mechanics; Resonance;
Journal_Title :
Photonics Technology Letters, IEEE
