Abstract—We report fast and accurate simulations of metamaterial structures constructed with large numbers of unit cells containing split-ring resonators and thin wires. Scattering problems involving various metamaterial walls are formulated rigorously using the electric-field integral equation, discretized with the Rao-Wilton-Glisson basis functions. Resulting dense matrix equations are solved iteratively, where the matrix-vector multiplications are performed efficiently with the multilevel fast multipole algorithm. For rapid solutions at resonance frequencies, convergence of the iterations is accelerated by using robust preconditioning techniques, such as the sparse-approximate-inverse preconditioner. Without resorting to homogenization a...
AbstractIn this paper the reader is introduced to an algorithm that revolutionized the complexity of...
We present fast and accurate simulations of optical metamaterials using surface integral equations a...
We present fast and accurate simulations of optical metamaterials using surface integral equations a...
We report fast and accurate simulations of metamaterial structures constructed with large numbers of...
We report fast and accurate simulations of metamaterial structures constructed with large numbers of...
We present the solution of multilayer metamaterial (MM) structures containing large numbers of unit ...
We consider accurate solution of scattering problems involving complicated metamaterial (MM) structu...
We present fast and accurate sloutions of electromagnetics problems involving realistic metamaterial...
We present the solution of multilayer metamaterial (MM) structures containing large numbers of unit ...
We present fast and accurate solutions of electromagnetics problems involving realistic metamaterial...
Abstract — In order to gain physical insight into how some metamaterial structures behave, we report...
Electromagnetic modelling of large metamaterial (MM) structures employing multilevel fast multipole ...
Two approaches, the multilevel fast multipole algorithm with sparse approximate inverse precondition...
We present efficient solutions of electromagnetics problems involving realistic metamaterial structu...
We consider accurate simulations of metamaterial (MM) structures consisting of split- ring-resonator...
AbstractIn this paper the reader is introduced to an algorithm that revolutionized the complexity of...
We present fast and accurate simulations of optical metamaterials using surface integral equations a...
We present fast and accurate simulations of optical metamaterials using surface integral equations a...
We report fast and accurate simulations of metamaterial structures constructed with large numbers of...
We report fast and accurate simulations of metamaterial structures constructed with large numbers of...
We present the solution of multilayer metamaterial (MM) structures containing large numbers of unit ...
We consider accurate solution of scattering problems involving complicated metamaterial (MM) structu...
We present fast and accurate sloutions of electromagnetics problems involving realistic metamaterial...
We present the solution of multilayer metamaterial (MM) structures containing large numbers of unit ...
We present fast and accurate solutions of electromagnetics problems involving realistic metamaterial...
Abstract — In order to gain physical insight into how some metamaterial structures behave, we report...
Electromagnetic modelling of large metamaterial (MM) structures employing multilevel fast multipole ...
Two approaches, the multilevel fast multipole algorithm with sparse approximate inverse precondition...
We present efficient solutions of electromagnetics problems involving realistic metamaterial structu...
We consider accurate simulations of metamaterial (MM) structures consisting of split- ring-resonator...
AbstractIn this paper the reader is introduced to an algorithm that revolutionized the complexity of...
We present fast and accurate simulations of optical metamaterials using surface integral equations a...
We present fast and accurate simulations of optical metamaterials using surface integral equations a...