In this work, we validate the behavior of 3D Photonic Crystals for Structural Health Monitoring applications. A Finite Difference Time Domain (FDTD) analysis has been performed and compared to experimental data. We demonstrate that the photonic properties of a crystal (comprised of sub-micrometric polystyrene colloidal spheres embedded in a PDMS matrix) change as a function of the axial strain applied to a rubber substrate. The change in the reflected wavelength, detected through our laboratory experiments and equivalent to a visible change in crystal color, is assumed to be caused by changes in the interplanar spacing of the polystyrene beads. This behavior is captured by our full wave 3D FDTD model. This contains different wavelengths in ...
The aim of this paper is to show how 2D approaches, often used to investigate numerically the real d...
This paper describes the parallel computational approach for the analysis of the multiple scattering...
Software was developed for solving Maxwell’s equations using the finite-difference time-domain metho...
Copyright 2017 Society of Photo‑Optical Instrumentation Engineers (SPIE). One print or electronic co...
A photonic crystal (PhC) is a periodic structure with nanometric periodicity comparable with the wav...
This work describes a 3-D Finite-Difference Time-Domain (FDTD) computational approach for the optica...
We discuss the possible use of photonic crystals as strain sensors. We demonstrate the feasible fabr...
This paper presents a comparative analysis between the experimental characterization and the numeric...
FDTD method is based on Maxwell's equations and this thesis describe how to make these differential ...
This work describes a computational approach for the optical characterization of an opal photonic cr...
Finite-Difference Time-Domain method (FDTD) is based on numerical solution of Maxwell's equations, n...
Electroactive soft photonic devi ces such a s an opal photonic crystal in gel shown in Fig. 1 (a) re...
The present paper describes a computational physics approach to the analysis of the light scattering...
A photonic crystal (PhC) is a periodic structure with periodicity comparable with the wavelength of ...
Finite-Difference Time-Domain method (FDTD) is based on numerical solution of Maxwell's equations, n...
The aim of this paper is to show how 2D approaches, often used to investigate numerically the real d...
This paper describes the parallel computational approach for the analysis of the multiple scattering...
Software was developed for solving Maxwell’s equations using the finite-difference time-domain metho...
Copyright 2017 Society of Photo‑Optical Instrumentation Engineers (SPIE). One print or electronic co...
A photonic crystal (PhC) is a periodic structure with nanometric periodicity comparable with the wav...
This work describes a 3-D Finite-Difference Time-Domain (FDTD) computational approach for the optica...
We discuss the possible use of photonic crystals as strain sensors. We demonstrate the feasible fabr...
This paper presents a comparative analysis between the experimental characterization and the numeric...
FDTD method is based on Maxwell's equations and this thesis describe how to make these differential ...
This work describes a computational approach for the optical characterization of an opal photonic cr...
Finite-Difference Time-Domain method (FDTD) is based on numerical solution of Maxwell's equations, n...
Electroactive soft photonic devi ces such a s an opal photonic crystal in gel shown in Fig. 1 (a) re...
The present paper describes a computational physics approach to the analysis of the light scattering...
A photonic crystal (PhC) is a periodic structure with periodicity comparable with the wavelength of ...
Finite-Difference Time-Domain method (FDTD) is based on numerical solution of Maxwell's equations, n...
The aim of this paper is to show how 2D approaches, often used to investigate numerically the real d...
This paper describes the parallel computational approach for the analysis of the multiple scattering...
Software was developed for solving Maxwell’s equations using the finite-difference time-domain metho...