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Germanium avalanche receiver for low power interconnects

Author

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  • Léopold Virot

    (Institut d’Electronique Fondamentale (IEF), Université Paris-Sud, CNRS
    CEA, LETI, Minatec Campus
    STMicroelectronics, Silicon Technology Development)

  • Paul Crozat

    (Institut d’Electronique Fondamentale (IEF), Université Paris-Sud, CNRS)

  • Jean-Marc Fédéli

    (CEA, LETI, Minatec Campus)

  • Jean-Michel Hartmann

    (CEA, LETI, Minatec Campus)

  • Delphine Marris-Morini

    (Institut d’Electronique Fondamentale (IEF), Université Paris-Sud, CNRS)

  • Eric Cassan

    (Institut d’Electronique Fondamentale (IEF), Université Paris-Sud, CNRS)

  • Frédéric Boeuf

    (STMicroelectronics, Silicon Technology Development)

  • Laurent Vivien

    (Institut d’Electronique Fondamentale (IEF), Université Paris-Sud, CNRS)

Abstract

Recent advances in silicon photonics have aided the development of on-chip communications. Power consumption, however, remains an issue in almost all integrated devices. Here, we report a 10 Gbit per second waveguide avalanche germanium photodiode under low reverse bias. The avalanche photodiode scheme requires only simple technological steps that are fully compatible with complementary metal oxide semiconductor processes and do not need nanometre accuracy and/or complex epitaxial growth schemes. An intrinsic gain higher than 20 was demonstrated under a bias voltage as low as −7 V. The Q-factor relating to the signal-to-noise ratio at 10 Gbit per second was maintained over 20 dB without the use of a trans-impedance amplifier for an input optical power lower than −26 dBm thanks to an aggressive shrinkage of the germanium multiplication region. A maximum gain over 140 was also obtained for optical powers below −35 dBm. These results pave the way for low-power-consumption on-chip communication applications.

Suggested Citation

  • Léopold Virot & Paul Crozat & Jean-Marc Fédéli & Jean-Michel Hartmann & Delphine Marris-Morini & Eric Cassan & Frédéric Boeuf & Laurent Vivien, 2014. "Germanium avalanche receiver for low power interconnects," Nature Communications, Nature, vol. 5(1), pages 1-6, December.
    • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms5957
    DOI: 10.1038/ncomms5957
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    Cited by:

    1. Yang Shi & Junyu Ren & Guanyu Chen & Wei Liu & Chuqi Jin & Xiangyu Guo & Yu Yu & Xinliang Zhang, 2022. "Nonlinear germanium-silicon photodiode for activation and monitoring in photonic neuromorphic networks," Nature Communications, Nature, vol. 13(1), pages 1-9, December.

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