Polarization-Independent
Light Emission Enhancement
of ZnO/Ag Nanograting via Surface Plasmon Polariton Excitation and
Cavity Resonance
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Abstract
In this study, we observed that the
photoluminescence (PL) intensity
of ZnO/Ag nanogratings was significantly enhanced compared with that
of a planar counterpart under illumination of both transverse magnetic
(TM) and transverse electric (TE)-mode light. In the TM mode, angle-resolved
reflectance spectra exhibited dispersive dips, indicating cavity resonance
as well as grating-coupled surface plasmon polariton (SPP) excitation.
In the TE mode, cavity resonance only was allowed, and broad dips
appeared in the reflectance spectra. Strong optical field confinement
in the ZnO layers, with the help of SPP and cavity modes, facilitated
polarization-insensitive PL enhancement. Optical simulation results
were in good agreement with the experimental results, supporting the
suggested scenario