Modeling SPR sensors with the finite-difference time-domain method

setup. T h e use of YBa,Cu,O, thin film does not change the antenna design and resonance frequency when compared to a normal metal. At 80 K, the improvement of efficiency was 1.2 d B over a silver counterpart working at the same temperature. This result may be even better at lower temperatures that

Scattering parameters of microstrip ring resonators with ) and without slits that are either edge or side coupled to the feedlines are simulated by the FDTD method. The strip conductors on the de¨ice can either be infinitely thin or finite in thickness. The simulations predict the occurrence of reso

In this paper we give a necessary and sufficient condition for the stability of the finite-difference time-domain method (FDTD method). This is an explicit time stepping method that is used for solving transient electromagnetic field problems. A necessary (but not a sufficient) condition for its sta

## Abstract In this work, a simple but effective algorithm was developed that can perform 3D simulations of magnetic fields emanating from coils and simple geometry objects in the time‐harmonic domain. The software was intended to provide information that would help in an inductive sensor design, b

The study of optical scattering by heterogeneous media is a complex topic where homogenization is very helpful and rigorous methods are useful. Finite difference time domain (FDTD) method coupled with Monte Carlo process is used to compute the effective parameters of heterogeneous media. Effective p

The finite difference time-domain (FDTD) method is a well known numerical technique that has been used to solve electromagnetic boundary value problems. However, the method requires large computational resources to solve a problem, restricting its use on sequential computers to small problems. This