Add to ORKGA waveguide photodetector (PD) based on semi-insulating (SI) indium phosphide (InP) was simulated, designed, and fabricated. The layer stack for this PD was optimized for use as an optical amplifier or laser and it can be combined with the passive components. By using an SI substrate and deep etching, a small, efficient, and high-speed PD was made, which allows for easy integration of source, detector, and passive optical components on a single chip. A 3-dB bandwidth of 35 GHz and 0.25 A/W external radio-frequency reponsivity is measured at 1.55-mum wavelength for a 1.5-mum-wide and 30-mum-long waveguide PD at -4-V bias voltage. The polarization dependence in the responsivity is less than 0.27 d
We have designed, fabricated and characterized an InP-based membrane photodetector on an SOI wafer c...
We have designed, fabricated and characterized an InP-based membrane photodetector on an SOI wafer c...
We analyze waveguide InP photodetectors for millimeter wave applications. We start with the PIN wave...
A waveguide photodetector (PD) based on semi-insulating (SI) indium phosphide (InP) was simulated, d...
A waveguide photodetector (PD) based on semi-insulating (SI) indium phosphide (InP) was simulated, d...
A waveguide photodetector (PD) based on semi-insulating (SI) indium phosphide (InP) was simulated, d...
A waveguide photodetector based on semi-insulating indium phosphide (InP) was de-signed and fabricat...
This article describes the fabrication and characterization of a waveguide pin-photodetector(WGPD) b...
This article describes the fabrication and characterization of a waveguide pin-photodetector\u3cbr/\...
This article describes the fabrication and characterization of a waveguide pin-photodetector(WGPD) b...
We demonstrate monolithic InP-based high-power high-speed waveguide integrated single and balanced m...
Evanescently coupled, waveguide integrated photodiodes were fabricated on InP. The device design is ...
on semi-insulating (SI) InP substrate at 1.55µm wavelength window with an electrical bandwidth of mo...
p-i-n photodiodes with integrated optical waveguides were successfully fabricated in the GaInAsP/InP...
We have designed, fabricated and characterized an InP-based membrane photodetector on an SOI wafer c...
We have designed, fabricated and characterized an InP-based membrane photodetector on an SOI wafer c...
We have designed, fabricated and characterized an InP-based membrane photodetector on an SOI wafer c...
We analyze waveguide InP photodetectors for millimeter wave applications. We start with the PIN wave...
A waveguide photodetector (PD) based on semi-insulating (SI) indium phosphide (InP) was simulated, d...
A waveguide photodetector (PD) based on semi-insulating (SI) indium phosphide (InP) was simulated, d...
A waveguide photodetector (PD) based on semi-insulating (SI) indium phosphide (InP) was simulated, d...
A waveguide photodetector based on semi-insulating indium phosphide (InP) was de-signed and fabricat...
This article describes the fabrication and characterization of a waveguide pin-photodetector(WGPD) b...
This article describes the fabrication and characterization of a waveguide pin-photodetector\u3cbr/\...
This article describes the fabrication and characterization of a waveguide pin-photodetector(WGPD) b...
We demonstrate monolithic InP-based high-power high-speed waveguide integrated single and balanced m...
Evanescently coupled, waveguide integrated photodiodes were fabricated on InP. The device design is ...
on semi-insulating (SI) InP substrate at 1.55µm wavelength window with an electrical bandwidth of mo...
p-i-n photodiodes with integrated optical waveguides were successfully fabricated in the GaInAsP/InP...
We have designed, fabricated and characterized an InP-based membrane photodetector on an SOI wafer c...
We have designed, fabricated and characterized an InP-based membrane photodetector on an SOI wafer c...
We have designed, fabricated and characterized an InP-based membrane photodetector on an SOI wafer c...
We analyze waveguide InP photodetectors for millimeter wave applications. We start with the PIN wave...