Wang, Jyh-YangJyh-YangWangKiang, Yean-woeiYean-woeiKiangCHIH-CHUNG YANG2018-09-102018-09-102007-0710944087http://scholars.lib.ntu.edu.tw/handle/123456789/333509https://www.scopus.com/inward/record.uri?eid=2-s2.0-34547188178&doi=10.1364%2fOE.15.009048&partnerID=40&md5=b2e6d5474d1a2f144d231b3fa44d547eA novel hybrid technique based on the boundary integral-equation method is proposed for studying the surface plasmon polariton behaviors in two-dimensional periodic structures. Considering the periodicity property of the problem, we use the plane-wave expansion concept and the periodic boundary condition instead of using the periodic Green's function. The diffraction efficiency can then be readily calculated once the equivalent electric and magnetic currents are solved that avoids invoking the numerical calculation of the radiation integral. The numerical validity is verified with the cases of highly conducting materials and practical metals. Numerical convergence can be easily achieved even in the case of a large incident angle as 80°. Based on the numerical scheme, a metal-dielectric wavy structure is designed for enhancing the transmittance of optical signal through the structure. The excitation of the coupled surface plasmon polaritons for the high transmission is demonstrated. ©2007 Optical Society of America.application/pdfapplication/pdfBoundary conditions; Boundary integral equations; Dielectric waveguides; Periodic structures; Surface plasmon resonance; Magnetic currents; Metal-dielectric structures; Surface plasmon polaritons; Two-dimensional periodic structures; Light polarizationjournal article10.1364/OE.15.0090482-s2.0-34547188178WOS:000248393900062