Paper 13109-33
Paper 13109-33
Reduction of dark current in Ge-on-Si avalanche photodiodes using a double mesa structure
20 August 2024 • 9:40 AM - 9:55 AM PDT | Conv. Ctr. Room 6C
Abstract
We demonstrate Ge-on-Si avalanche photodiodes based on a separate absorption, charge, and multiplication structure using a novel double mesa structure. This double mesa structure effectively confines the electric field inside the diode, as confirmed through simulation data. This leads to a reduced contribution of charge carriers from interface states at the etched sidewalls to the dark current. The diodes exhibit a dark current reduction by a factor of 7 compared to a standard single mesa structure, while the optical properties remain unchanged. At a wavelength of 1310 nm, a maximum optical responsivity of 10.1 A/W, corresponding to a gain of 46, is achieved. Temperature-dependent dark current measurements showed an increase of the underlying activation energy from 0.13 eV to 0.28 eV. This results to a dark current of 0.14 nA at a temperature of 170 K and a bias voltage of 95 % VBD, which is approximately 100 times smaller than that of the single mesa APDs at 12.7 nA.
Presenter
Maurice Wanitzek
Univ. Stuttgart (Germany)
Maurice Wanitzek was born in Stuttgart, Germany in 1997. He received the B.S. and M.S. degrees in electrical engineering and information technology from the University of Stuttgart in 2019 and 2021 respectively. He is currently pursuing the Ph.D. degree in electrical engineering at the Institute of Semiconductor Engineering at the University of Stuttgart.
He is mainly engaged in the research of detectors based on group IV technologies. This includes photodiodes, avalanche photodiodes for camera and high-speed telecommunication as well as integrable Ge- and GeSn-based single photon avalanche diodes for various quantum applications.