scholarly journals Mathematical and numerical framework for metasurfaces using thin layers of periodically distributed plasmonic nanoparticles

2016 ◽  
Vol 472 (2193) ◽  
pp. 20160445 ◽  
Author(s):  
Habib Ammari ◽  
Matias Ruiz ◽  
Wei Wu ◽  
Sanghyeon Yu ◽  
Hai Zhang
Keyword(s):  
Boundary Condition ◽  
Spectral Properties ◽  
Thin Layers ◽  
Optical Scattering ◽  
Plasmonic Nanoparticles ◽  
Type Operator ◽  
Impedance Boundary Condition ◽  
Resonant Frequencies ◽  
Impedance Boundary ◽  
Conducting Plate

In this paper, we derive an impedance boundary condition to approximate the optical scattering effect of an array of plasmonic nanoparticles mounted on a perfectly conducting plate. We show that at some resonant frequencies the impedance blows up, allowing for a significant reduction of the scattering from the plate. Using the spectral properties of a Neumann–Poincaré type operator, we investigate the dependency of the impedance with respect to changes in the nanoparticle geometry and configuration.

A METHOD FOR THE TREATMENT OF A SLOPING SEA BOTTOM IN THE PARABOLIC APPROXIMATION

1996 ◽  
Vol 04 (01) ◽  
pp. 89-100 ◽  
Author(s):  
J. S. PAPADAKIS ◽  
B. PELLONI
Keyword(s):  
Boundary Condition ◽  
Helmholtz Equation ◽  
Pressure Field ◽  
Impedance Boundary Condition ◽  
Parabolic Approximation ◽  
Impedance Boundary ◽  
Local Boundary ◽  
Sea Bottom ◽  
Local Boundary Condition ◽  
Non Local

The impedance boundary condition for the parabolic approximation is derived in the case of a sea bottom profile sloping at a constant angle, as a non-local boundary condition imposed exactly at the interface. This condition is integrated into the IFD code for the numerical computation of the pressure field and implemented to test its accuracy in some benchmark cases, for which the backscattered field is negligible. It is shown that by avoiding the sloping interface, the results obtained are closer to the benchmark results given by normal mode codes solving the full Helmholtz equation, such as the 2-way COUPLE code, than those of the standard IFD or other 1-way codes, at least for problems that do not have significant backscattering effects.

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