Si Waveguide-Integrated Metal--Semiconductor--Metal and p--i--n-Type Ge Photodiodes Using Si-Capping Layer
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概要
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We studied Si waveguide-integrated metal--semiconductor--metal (MSM) and p--i--n-type Ge photodiodes (Ge-PDs), using a Si-capping layer. As for an MSM Ge-PD, the Schottky barrier height was increased up to 0.44 V by applying a 8--20 nm Si-capping layer, and a very low dark current density of approximately 0.4 nA/μm<sup>2</sup>was achieved with a high responsivity of 0.8 A/W. In addition, a small electrode spacing of 1 μm realized high-speed photodetection of 20 Gbps. As for a p--i--n-type Ge-PD, by applying a 10--20 nm Si capping layer, the contact resistance between a metal electrode of Ti/TiN/Al and n<sup>+</sup>-Si capping layer was successfully reduced to 1\times 10^{-5} \Omega\cdotcm<sup>2</sup>. A 45 GHz bandwidth was obtained with a low dark current density of 0.8 nA/μm<sup>2</sup>. Moreover, a more than 20 GHz bandwidth was achieved with zero-bias voltage. In the case of zero-bias voltage operation, a 3 dB bandwidth was a little affected by input power, which would originate from the photocarrier screening effect on the built-in electric field.
- 2013-04-25
著者
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Arakawa Yasuhiko
Institute For Nano Quantum Information Electronics (nanoquine) The University Of Tokyo
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Horikawa Tsuyoshi
Institute for Photonics-Electronics Convergence System Technology (PECST), Meguro, Tokyo 153-8505, Japan
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FUJIKATA Junichi
Institute for Photonics-Electronics Convergence System Technology (PECST)
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HORIKAWA Tsuyoshi
Institute for Photonics-Electronics Convergence System Technology (PECST)
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Miura Makoto
Institute for Photonics-Electronics Convergence System Technology (PECST), Meguro, Tokyo 153-8505, Japan
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Okamoto Daisuke
Institute for Photonics-Electronics Convergence System Technology (PECST), Meguro, Tokyo 153-8505, Japan
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Noguchi Masataka
Institute for Photonics-Electronics Convergence System Technology (PECST), Meguro, Tokyo 153-8505, Japan
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