Experimental demonstration of quenched transmission effect of an ultrathin metallic grating | Zendy

Sung Woo Kim | Zendy; Xin Lin | Zendy; Brandon Hong | Zendy; Joanna Ptasinski | Zendy; Yeshaiahu Fainman | Zendy

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Experimental demonstration of quenched transmission effect of an ultrathin metallic grating

Author(s) -

Sung Woo Kim,

Xin Lin,

Brandon Hong,

Joanna Ptasinski,

Yeshaiahu Fainman

Publication year - 2016

Publication title -

optics letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.524

H-Index - 272

eISSN - 1071-2763

pISSN - 0146-9592

DOI - 10.1364/ol.41.001522

Subject(s) - materials science , optics , shadow mask , transverse plane , grating , planar , diffraction grating , fabrication , metal , transmission (telecommunications) , electric field , optoelectronics , physics , medicine , computer graphics (images) , electrical engineering , computer science , metallurgy , engineering , quantum mechanics , structural engineering , alternative medicine , pathology

We report on the experimental study of an anomalous transmission effect in ultrathin metallic gratings, where the metal thickness is much thinner than the skin depth. In particular, incident transverse magnetic polarized waves are reflected while incident transverse electric polarized waves are transmitted. This anomalous effect is strongly dependent on the metal thickness and metal width. We systematically investigate and demonstrate the anomalous effect and find the optimized nanostrip thickness and width by introducing a shadow-mask fabrication approach. Our results demonstrate the possibility of developing ultrathin nanostrip based planar metasurfaces with low loss.

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