We introduce a simple scattered field (SF) technique that enables finite difference time domain (FDTD) modeling of light scattering from dispersive objects residing in stratified dispersive media. The introduced SF technique is verified against the total field scattered field (TFSF) technique. As an application example, we study surface plasmon polariton enhanced light transmission through a 100nm wide slit in a silver film
This chapter presents the formulation of novel unconditionally stable fundamental alternating direct...
International audienceWe describe the implementation of the critical points model in a finite-differ...
Abstract—This paper proposes a novel generalized total-field/scattered-field (G-TF/SF) formulation f...
We introduce a simple scattered field (SF) technique that enables finite difference time domain (FDT...
pre-printThis letter presents a scattered-field formulation for modeling dispersive media using the ...
This summary presents a scattered field formulation for the finite difference time domain technique ...
The scattering and absorption of electromagnetic waves by irregularly shaped particles and arbitrary...
International audienceWe extend here the finite-difference-time-domain (FDTD) algorithm working in o...
Modern optical technologies, such as microscopy, data storage, and lithography, require optical ligh...
A series of enhancements are made to the standard finite difference time domain (FDTD) approach whic...
The Finite-Difference Time-Domain (FDTD) method has proven to be a useful tool to analyze electromag...
The theoretical and numerical models for simulation of light propagation process through a turbid me...
Abstract—Split-field finite-difference time-domain (SF-FDTD) meth-od can overcome the limitation of ...
Scalar diffraction theory is not applicable to electromagnetic problems in which structural (light s...
The Finite-Difference Time-Domain method has been applied to microwaves with successfully results. T...
This chapter presents the formulation of novel unconditionally stable fundamental alternating direct...
International audienceWe describe the implementation of the critical points model in a finite-differ...
Abstract—This paper proposes a novel generalized total-field/scattered-field (G-TF/SF) formulation f...
We introduce a simple scattered field (SF) technique that enables finite difference time domain (FDT...
pre-printThis letter presents a scattered-field formulation for modeling dispersive media using the ...
This summary presents a scattered field formulation for the finite difference time domain technique ...
The scattering and absorption of electromagnetic waves by irregularly shaped particles and arbitrary...
International audienceWe extend here the finite-difference-time-domain (FDTD) algorithm working in o...
Modern optical technologies, such as microscopy, data storage, and lithography, require optical ligh...
A series of enhancements are made to the standard finite difference time domain (FDTD) approach whic...
The Finite-Difference Time-Domain (FDTD) method has proven to be a useful tool to analyze electromag...
The theoretical and numerical models for simulation of light propagation process through a turbid me...
Abstract—Split-field finite-difference time-domain (SF-FDTD) meth-od can overcome the limitation of ...
Scalar diffraction theory is not applicable to electromagnetic problems in which structural (light s...
The Finite-Difference Time-Domain method has been applied to microwaves with successfully results. T...
This chapter presents the formulation of novel unconditionally stable fundamental alternating direct...
International audienceWe describe the implementation of the critical points model in a finite-differ...
Abstract—This paper proposes a novel generalized total-field/scattered-field (G-TF/SF) formulation f...