Low-Voltage High-Speed (18 GHz/1 V) Evanescent-Coupled Thin-Film-Ge Lateral PIN Photodetectors Integrated on Si Waveguide

Low-Voltage High-Speed (18 GHz/1 V) Evanescent-Coupled Thin-Film-Ge Lateral PIN Photodetectors Integrated on Si Waveguide

This letter presents the device performance of scaled thin-film-Ge lateral PIN photodetectors integrated on a Si waveguide. The photodetectors are with closely spaced p + /n + regions (0.8 mum) on a Ge region with short length (5-20 mum) and narrow width (2.4 mum). Though with a thin Ge layer (~220...

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Veröffentlicht in:IEEE photonics technology letters 2008-09, Vol.20 (17), p.1485-1487
Hauptverfasser: Wang, J., Loh, W.Y., Chua, K.T., Zang, H., Xiong, Y.Z., Tan, S.M.F., Yu, M.B., Lee, S.J., Lo, G.Q., Kwong, D.L.
Format: Artikel
Sprache:eng
Schlagworte:
Absorption
Bandwidth
Dark current
Detectors
Devices
Evanescent-coupled
Germanium
Germanium silicon alloys
High speed
lateral p-i-n
Microelectronics
photodetector
Photodetectors
PIN photodiodes
Semiconductor waveguides
Silicon
Silicon germanides
Silicon germanium
Thin films
waveguide
Waveguides
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Zusammenfassung:This letter presents the device performance of scaled thin-film-Ge lateral PIN photodetectors integrated on a Si waveguide. The photodetectors are with closely spaced p + /n + regions (0.8 mum) on a Ge region with short length (5-20 mum) and narrow width (2.4 mum). Though with a thin Ge layer (~220 nm including bottom SiGe buffer), light is evanescent-coupled from the Si waveguide effectively to the overlying Ge detector. The device exhibits f 3 dB bandwidth of 18 GHz with external responsivity of 0.13 A/W for 1550 nm at -1 V. Considering the coupling loss and waveguide loss, the internal responsivity is as high as 0.65 A/W. It is shown that with increasing detector length, the devices' internal quantum efficiency can be improved to ~90% and by suppressing parasitic effects, speed can be boosted further towards several tens of gigahertz.
ISSN:1041-1135
1941-0174
DOI:10.1109/LPT.2008.928087