AbstractIn this paper we propose a new finite element frequency domain (FEFD) method to compute the band spectra of 2D photonic crystals without impurities. Exploiting periodicity to identify discretization points differing by a period, it increases the effectiveness of the algorithm and reduces significantly its computational complexity. The results of an extensive experimentation indicate that our method offers an effective alternative to the most quoted methods in the literature
The finite element method (FEM) is presented as an efficient technique for modelling photonic crysta...
In this work we study the electromagnetic modes in one-dimensional and two-dimensional photonic crys...
The band structure of 2D photonic crystals – a periodic material with discontinuous dielectrical pro...
In this paper we propose a new finite element frequency domain (FEFD) method to compute the band spe...
In this paper we propose a new finite element frequency domain (FEFD) method to compute the band spe...
In this article we develop a finite difference (FDFD) method to compute the band spectra of 2D photo...
In this article we develop a finite difference (FDFD) method to compute the band spectra of 2D photo...
AbstractIn this paper we propose a new finite element frequency domain (FEFD) method to compute the ...
This paper presents an efficient finite element method (FEM) for computing spectra of photonic band ...
. An e#cient method for band structure calculations in dielectric photonic crystals is presented. Th...
We propose a new method for band structure calculation of photonic crystals. It can treat arbitraril...
Abstract. A method for computing band structures for three-dimensional photonic crystals is describe...
An improved finite-difference frequency-domain method based on Taylor series expansion, local coordi...
International audienceThe band structure of 2D photonic crystals -- a periodic material with discont...
An efficient novel time-domain finite-element approach for the analysis of photonic crystal resonant...
The finite element method (FEM) is presented as an efficient technique for modelling photonic crysta...
In this work we study the electromagnetic modes in one-dimensional and two-dimensional photonic crys...
The band structure of 2D photonic crystals – a periodic material with discontinuous dielectrical pro...
In this paper we propose a new finite element frequency domain (FEFD) method to compute the band spe...
In this paper we propose a new finite element frequency domain (FEFD) method to compute the band spe...
In this article we develop a finite difference (FDFD) method to compute the band spectra of 2D photo...
In this article we develop a finite difference (FDFD) method to compute the band spectra of 2D photo...
AbstractIn this paper we propose a new finite element frequency domain (FEFD) method to compute the ...
This paper presents an efficient finite element method (FEM) for computing spectra of photonic band ...
. An e#cient method for band structure calculations in dielectric photonic crystals is presented. Th...
We propose a new method for band structure calculation of photonic crystals. It can treat arbitraril...
Abstract. A method for computing band structures for three-dimensional photonic crystals is describe...
An improved finite-difference frequency-domain method based on Taylor series expansion, local coordi...
International audienceThe band structure of 2D photonic crystals -- a periodic material with discont...
An efficient novel time-domain finite-element approach for the analysis of photonic crystal resonant...
The finite element method (FEM) is presented as an efficient technique for modelling photonic crysta...
In this work we study the electromagnetic modes in one-dimensional and two-dimensional photonic crys...
The band structure of 2D photonic crystals – a periodic material with discontinuous dielectrical pro...