Robert Magnusson,1 Kyu J. Lee,1 Hafez Hemmati,1 Pawarat Bootpakdeetam,1 Jonathan Vasilyev,1 Fairooz A. Simlan,1 Nasrin Razmjooeihttps://orcid.org/0000-0001-9161-7214,1 Yeong Hwan Ko,1 Shanwen Zhang,2 Sun-Goo Lee,3 Halldor G. Svavarsson4
1The Univ. of Texas at Arlington (United States) 2Changchun Institute of Optics, Fine Mechanics and Physics (China) 3Advanced Photonics Research Institute, GIST (Korea, Republic of) 4Reykjavik Univ. (Iceland)
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We review guided-mode resonant photonic lattices by addressing their functionalities and potential device applications. The 1D canonical model is rich in properties and conceptually transparent, with all the main conclusions being applicable to 2D metasurfaces and periodic photonic slabs. We explain the operative physical mechanisms grounded in lateral leaky Bloch modes. We summarize the band dynamics of the leaky stopband. With several examples, we demonstrate that Mie scattering is not causative in resonant reflection. Illustrated applications include a wideband reflector at infrared bands as well as resonant reflectors with triangular profiles. We quantify the improved efficiency of a silicon reflector operating in the visible region relative to loss reduction as realizable with sample hydrogenation. A resonant polarizer with record performance is presented.
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Robert Magnusson, Kyu J. Lee, Hafez Hemmati, Pawarat Bootpakdeetam, Jonathan Vasilyev, Fairooz A. Simlan, Nasrin Razmjooei, Yeong Hwan Ko, Shanwen Zhang, Sun-Goo Lee, Halldor G. Svavarsson, "Properties of resonant photonic lattices: Bloch mode dynamics, band flips, and applications," Proc. SPIE 11290, High Contrast Metastructures IX, 1129006 (26 February 2020); https://doi.org/10.1117/12.2547322