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Optimal subwavelength design for efficient light trapping in central slit of plasmonics-based metal-semiconductor-metal photodetector

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Abstract

We present the analysis of a novel plasmonics-based metal-semiconductor-metal photodetector that dramatically modifies the light transmission spectra when the sub-wavelength central slit is partly covered with a gold (Au) thin film. The simulation results reveal surface plasmons together with the optimized nano-gratings impact in this special design for quality light absorption inside the device active region. Finite-difference time-domain method has been utilized to simulate the behavior of the proposed novel photodetector structure with significant improved light absorption capacity.

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Authors and Affiliations

  1. Physics Group, University of Guilan, Rasht, Iran

    Farzaneh Fadakar Masouleh & Seyed Mohammad Rozati

  2. School of Mechanical and Electrical Engineering, University of Southern Queensland, Toowoomba, QLD, 4350, Australia

    Narottam Das

  3. Department of Electrical and Computer Engineering, Curtin University, Sarawak Campus, 98009, Miri, Malaysia

    Narottam Das

Authors
  1. Farzaneh Fadakar Masouleh
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  2. Narottam Das
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  3. Seyed Mohammad Rozati
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Correspondence to Farzaneh Fadakar Masouleh.

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Masouleh, F.F., Das, N. & Rozati, S.M. Optimal subwavelength design for efficient light trapping in central slit of plasmonics-based metal-semiconductor-metal photodetector. Opt Quant Electron 47, 1477–1485 (2015). https://doi.org/10.1007/s11082-015-0126-1

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