Add to ORKGSignificant progress has been made recently in demonstrating that silicon photonics is a promising technology for low-cost optical detectors, modulators and light sources1–12. It has often been assumed, however, that their performance is inferior to InP-based devices. Although this is true in most cases, one of the exceptions is the area of avalanche photodetectors, where silicon’s material properties allow for high gain with less excess noise than InP-based avalanche photodetectors and a theoretical sensitivity improvement of 3 dB or more. Here, we report a monolithically grown germanium/silicon avalanche photodetector with a gain–bandwidth product of 340 GHz, a keff of 0.09 and a sensitivity of 228 dB m at 10 Gb s 21. This is the highest ...
Fast, sensitive avalanche photodiodes (APDs) are required for applications such as high-speed data c...
The design, modeling, fabrication, and characterization of single-photon avalanche diode detectors w...
Abstract: In this paper we present a separate-absorption-charge-multiplication Ge/Si avalanche photo...
Abstract: We demonstrate mesa-type and waveguide-type Ge/Si avalanche photodiodes both with high per...
Research on Silicon based avalanche photodiodes has been seemingly increasing in the last decades, t...
International audiencePhotodetectors are cornerstone components in integrated optical circuits and a...
Avalanche Photodiodes (APDs) are widely used in fiber-optic communications as well as imaging and se...
We present the DC, small signal and large signal performance of low excess-noise waveguide coupled g...
We demonstrate low-voltage germanium waveguide avalanche photodetectors (APD) with gain-bandwidth pr...
The design, modeling, fabrication, and characterization of single-photon avalanche diode detectors w...
Extremely sensitive optical receivers operating at high bandwidth are critical for optical communica...
International audienceOwing to its low-cost, high-yield, and dense integration ability, silicon nano...
AbsWuct-Avalanche gain in Ge,Si,-JSi heterostructures photodiodes has been measured for the first ti...
Optical photodetectors are at the forefront of photonic research since the rise of integrated optics...
Abstract We demonstrate low-voltage Ge waveguide avalanche photodetectors (APDs) with gain-bandwidth...
Fast, sensitive avalanche photodiodes (APDs) are required for applications such as high-speed data c...
The design, modeling, fabrication, and characterization of single-photon avalanche diode detectors w...
Abstract: In this paper we present a separate-absorption-charge-multiplication Ge/Si avalanche photo...
Abstract: We demonstrate mesa-type and waveguide-type Ge/Si avalanche photodiodes both with high per...
Research on Silicon based avalanche photodiodes has been seemingly increasing in the last decades, t...
International audiencePhotodetectors are cornerstone components in integrated optical circuits and a...
Avalanche Photodiodes (APDs) are widely used in fiber-optic communications as well as imaging and se...
We present the DC, small signal and large signal performance of low excess-noise waveguide coupled g...
We demonstrate low-voltage germanium waveguide avalanche photodetectors (APD) with gain-bandwidth pr...
The design, modeling, fabrication, and characterization of single-photon avalanche diode detectors w...
Extremely sensitive optical receivers operating at high bandwidth are critical for optical communica...
International audienceOwing to its low-cost, high-yield, and dense integration ability, silicon nano...
AbsWuct-Avalanche gain in Ge,Si,-JSi heterostructures photodiodes has been measured for the first ti...
Optical photodetectors are at the forefront of photonic research since the rise of integrated optics...
Abstract We demonstrate low-voltage Ge waveguide avalanche photodetectors (APDs) with gain-bandwidth...
Fast, sensitive avalanche photodiodes (APDs) are required for applications such as high-speed data c...
The design, modeling, fabrication, and characterization of single-photon avalanche diode detectors w...
Abstract: In this paper we present a separate-absorption-charge-multiplication Ge/Si avalanche photo...