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Narrowband photodetection in the near-infrared with a plasmon-induced hot electron device

Author

Listed:
  • Ali Sobhani

    (Rice University
    Laboratory for Nanophotonics, Rice University)

  • Mark W. Knight

    (Rice University
    Laboratory for Nanophotonics, Rice University)

  • Yumin Wang

    (Rice University
    Laboratory for Nanophotonics, Rice University)

  • Bob Zheng

    (Rice University
    Laboratory for Nanophotonics, Rice University)

  • Nicholas S. King

    (Rice University
    Laboratory for Nanophotonics, Rice University)

  • Lisa V. Brown

    (Laboratory for Nanophotonics, Rice University
    Rice University)

  • Zheyu Fang

    (Rice University
    Laboratory for Nanophotonics, Rice University
    Rice University
    School of Physics, State Key Lab for Mesoscopic Physics, Peking University)

  • Peter Nordlander

    (Rice University
    Laboratory for Nanophotonics, Rice University
    Rice University)

  • Naomi J. Halas

    (Rice University
    Laboratory for Nanophotonics, Rice University
    Rice University)

Abstract

In gratings, incident light can couple strongly to plasmons propagating through periodically spaced slits in a metal film, resulting in a strong, resonant absorption whose frequency is determined by the nanostructure periodicity. When a grating is patterned on a silicon substrate, the absorption response can be combined with plasmon-induced hot electron photocurrent generation. This yields a photodetector with a strongly resonant, narrowband photocurrent response in the infrared, limited at low frequencies by the Schottky barrier, not the bandgap of silicon. Here we report a grating-based hot electron device with significantly larger photocurrent responsivity than previously reported antenna-based geometries. The grating geometry also enables more than three times narrower spectral response than observed for nanoantenna-based devices. This approach opens up the possibility of plasmonic sensors with direct electrical readout, such as an on-chip surface plasmon resonance detector driven at a single wavelength.

Suggested Citation

  • Ali Sobhani & Mark W. Knight & Yumin Wang & Bob Zheng & Nicholas S. King & Lisa V. Brown & Zheyu Fang & Peter Nordlander & Naomi J. Halas, 2013. "Narrowband photodetection in the near-infrared with a plasmon-induced hot electron device," Nature Communications, Nature, vol. 4(1), pages 1-6, June.
  • Handle: RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms2642
    DOI: 10.1038/ncomms2642
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    Cited by:

    1. Xuecou Tu & Yichen Zhang & Shuyu Zhou & Wenjing Tang & Xu Yan & Yunjie Rui & Wohu Wang & Bingnan Yan & Chen Zhang & Ziyao Ye & Hongkai Shi & Runfeng Su & Chao Wan & Daxing Dong & Ruiying Xu & Qing-Yua, 2024. "Tamm-cavity terahertz detector," Nature Communications, Nature, vol. 15(1), pages 1-8, December.

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