APL Photonics (May 2018)

Efficient photoconductive terahertz detector with all-dielectric optical metasurface

  • Oleg Mitrofanov,
  • Thomas Siday,
  • Robert J. Thompson,
  • Ting Shan Luk,
  • Igal Brener,
  • John L. Reno

DOI
https://doi.org/10.1063/1.5011420
Journal volume & issue
Vol. 3, no. 5
pp. 051703 – 051703-6

Abstract

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We designed an optically thin photoconductive channel as an all-dielectric metasurface comprising an array of low-temperature grown GaAs nanobeams and a sub-surface distributed Bragg reflector. The metasurface exhibited enhanced optical absorption, and it was integrated into a photoconductive THz detector, which showed high efficiency and sensitivity as a result. The detector produced photocurrents over one order of magnitude higher compared to a similar detector with an unstructured surface with only 0.5 mW of optical excitation while exhibiting high dark resistance required for low-noise detection in THz time-domain spectroscopy and imaging. At that level of optical excitation, the metasurface detector showed a high signal to noise ratio of 106. The detector showed saturation above that level.