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Novel Silicon-Carbon (Si:C) Schottky Barrier Enhancement Layer for Dark-Current Suppression in Ge-on-SOI MSM Photodetectors

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7 Author(s)
Kah-Wee Ang ; Inst. of Microelectron., A*STAR, Singapore ; Zhu, Shi-Yang ; Jian Wang ; Khai Tze Chua
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This letter reports the first demonstration of an evanescent coupled germanium-on-silicon-on-insulator (Ge-on-SOI) metal-semiconductor-metal (MSM) photodetector with a novel silicon-carbon (Si:C) Schottky barrier enhancement layer. Through the insertion of a Si:C barrier layer between the metal/Ge interface, the hole Schottky barrier height phibh can effectively be enhanced to ~0.52 eV above the valence band edge. As a result, significant dark-current IDark suppression by more than four orders of magnitude was demonstrated, leading to an impressive IDark of ~11.5 nA for an applied bias VA of 1.0 V. Optical measurements performed at a photon wavelength of 1550 nm revealed the achievement of good internal responsivity and quantum efficiency of ~530 mA/W and 42.4%, respectively, making such a high-performance Ge-on-SOI MSM photodetector a promising option for optical communication applications.

Published in:

Electron Device Letters, IEEE  (Volume:29 ,  Issue: 7 )