Mathias Kaschel scite author profile

GeSn heterojunction photodetectors on Si substrates were grown with Sn concentration up to 4%, fabricated for vertical light incidence, and characterized. The complete layer structure was grown by means of ultra low temperature (100 °C) molecular beam epitaxy. The Sn content shifts the responsivity into the infrared, about 310 nm for the 4% Sn sample. An increase of the optical responsivity for wavelengths higher than 1550 nm can be observed with increasing Sn content. At 1600 nm, the optical responsivity is increased by more than a factor of 10 for the GeSn diode with 4% Sn in comparison to the Ge reference diode.

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Room-Temperature Electroluminescence From GeSn Light-Emitting Pin Diodes on Si

Oehme

Werner

Gollhofer

et al. 2011

IEEE Photon. Technol. Lett.

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GeSn Heterojunction LEDs on Si Substrates

Oehme

Kostecki

Arguirov

et al. 2014

IEEE Photon. Technol. Lett.

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Ge-on-Si p-i-n Photodiodes With a 3-dB Bandwidth of 49 GHz

Klinger

Berroth

Kaschel

et al. 2009

IEEE Photon. Technol. Lett.

110

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Mathias Kaschel

Germanium-tin p-i-n photodetectors integrated on silicon grown by molecular beam epitaxy

GeSn p-i-n detectors integrated on Si with up to 4% Sn

Room-Temperature Electroluminescence From GeSn Light-Emitting Pin Diodes on Si

GeSn Heterojunction LEDs on Si Substrates

Ge-on-Si p-i-n Photodiodes With a 3-dB Bandwidth of 49 GHz

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