Guided-Wave Photodetectors Using Mid-Bandgap States
Guided-wave photodetectors based on absorption of infrared photons by mid-bandgap states in non-crystal semiconductors. In one example, a resonant guided-wave photodetector is fabricated based on a polysilicon layer used for the transistor gate in a SOI CMOS process without any change to the foundry process flow (‘zero-change’ CMOS). Mid-bandgap defect states in the polysilicon absorb infrared photons. Through a combination of doping mask layers, a lateral p-n junction is formed in the polysilicon, and a bias voltage applied across the junction creates a sufficiently strong electric field to enable efficient photo-generated carrier extraction and high-speed operation. An example device has a responsivity of more than 0.14 A/W from 1300 to 1600 nm, a 10 GHz bandwidth, and 80 nA dark current at 15 V reverse bias.
Researchers
-
guided-wave photodetector apparatus employing mid-bandgap states of semiconductor materials, and fabrication methods for same
United States of America | Granted | 10,043,925 -
guided-wave photodetector apparatus employing mid-bandgap states of semiconductor materials, and fabrication methods for same
Patent Cooperation Treaty | Published application
Sign up for technology updates
Sign up now to receive the latest updates on cutting-edge technologies and innovations.