Nanophotonics (Oct 2020)

Near-field resonant photon sorting applied: dual-band metasurface quantum well infrared photodetectors for gas sensing

  • Hainey Mel F.,
  • Mano Takaaki,
  • Kasaya Takeshi,
  • Ochiai Tetsuyuki,
  • Osato Hirotaka,
  • Watanabe Kazuhiro,
  • Sugimoto Yoshimasa,
  • Kawazu Takuya,
  • Arai Yukinaga,
  • Shigetou Akitsu,
  • Miyazaki Hideki T.

DOI
https://doi.org/10.1515/nanoph-2020-0456
Journal volume & issue
Vol. 9, no. 16
pp. 4775 – 4784

Abstract

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Two photodetectors for measuring transmission and two bulky, separated narrowband filters for picking a target gas absorption line and a non-absorbing reference from broadband emission are typically required for dual-band non-dispersive infrared (NDIR) gas sensing. Metal-dielectric-metal (MDM) metasurface plasmon cavities, precisely controllable narrowband absorbers, suggest a next-generation, nanophotonic approach. Here, we demonstrate a dual-band MDM cavity detector that consolidates the function of two detectors and two filters into a single device by employing resonant photon sorting-a function unique to metasurfaces. Two MDM cavities sandwiching a quantum well infrared photodetector (QWIP) with distinct resonance wavelengths are alternately arranged in a subwavelength period. The large absorption cross section of the cavities ensures ~95% efficient lateral sorting of photons by wavelength into the corresponding detector within a near-field region. The flow of incident photons is thus converted into two independent photocurrents for dual-band detection. Our dual-band photodetectors show competitive external quantum efficiencies up to 38% (responsivity 2.1 A/W, peak wavelength 6.9 5m) at 78 K. By tailoring one resonance to an absorption peak of NO2 (6.25 5m) and the other to a non-absorbing reference wavelength (7.15 5m), NDIR NO2 gas sensing with 10 ppm accuracy and 1 ms response times is demonstrated. Through experiment and numerical simulation, we confirm near-perfect absorption at the resonant cavity and suppressed absorption at its non-resonant counterpart, characteristic of resonant photon sorting. Dual-band sensing across the mid-infrared should be possible by tailoring the cavities and quantum well to desired wavelengths.

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