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Towards femtosecond on-chip electronics based on plasmonic hot electron nano-emitters

Author

Listed:
  • Christoph Karnetzky

    (Technical University of Munich
    Nanosystems Initiative Munich (NIM))

  • Philipp Zimmermann

    (Technical University of Munich
    Nanosystems Initiative Munich (NIM))

  • Christopher Trummer

    (Technical University of Munich
    Nanosystems Initiative Munich (NIM))

  • Carolina Duque Sierra

    (Technical University of Munich
    Nanosystems Initiative Munich (NIM))

  • Martin Wörle

    (Technical University of Munich)

  • Reinhard Kienberger

    (Technical University of Munich
    Hans Kopfermann-Straße 1)

  • Alexander Holleitner

    (Technical University of Munich
    Nanosystems Initiative Munich (NIM))

Abstract

To combine the advantages of ultrafast femtosecond nano-optics with an on-chip communication scheme, optical signals with a frequency of several hundreds of THz need to be down-converted to coherent electronic signals propagating on-chip. So far, this has not been achieved because of the overall slow response time of nanoscale electronic circuits. Here, we demonstrate that 14 fs optical pulses in the near-infrared can drive electronic on-chip circuits with a prospective bandwidth up to 10 THz. The corresponding electronic pulses propagate in macroscopic striplines on a millimeter scale. We exploit femtosecond photoswitches based on asymmetric, nanoscale metal junctions to drive the pulses. The non-linear ultrafast response is based on a plasmonically enhanced, multiphoton absorption resulting in a field emission of ballistic hot electrons propagating across the nanoscale junctions. Our results pave the way towards femtosecond electronics integrated in wafer-scale THz circuits.

Suggested Citation

  • Christoph Karnetzky & Philipp Zimmermann & Christopher Trummer & Carolina Duque Sierra & Martin Wörle & Reinhard Kienberger & Alexander Holleitner, 2018. "Towards femtosecond on-chip electronics based on plasmonic hot electron nano-emitters," Nature Communications, Nature, vol. 9(1), pages 1-7, December.
  • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-04666-y
    DOI: 10.1038/s41467-018-04666-y
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    Cited by:

    1. E. Wang & J. D. Adelinia & M. Chavez-Cervantes & T. Matsuyama & M. Fechner & M. Buzzi & G. Meier & A. Cavalleri, 2023. "Superconducting nonlinear transport in optically driven high-temperature K3C60," Nature Communications, Nature, vol. 14(1), pages 1-6, December.
    2. Judit Budai & Zsuzsanna Pápa & Péter Petrik & Péter Dombi, 2022. "Ultrasensitive probing of plasmonic hot electron occupancies," Nature Communications, Nature, vol. 13(1), pages 1-6, December.

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