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Surface Plasmon and Nano-Metallic Materials
Metallic photonic materials demonstrate unique properties due to the existence of metals on electromagnetic surface waves known as surface plasmons. Surface plasmons are set to become part of the photonics revolution in which the interaction between light and matter is controlled by producing patterned structures that are periodic on the scale of the wavelength of light.
Nano-Lens and Micro-Lens Simulations
When optical lens size is compatible with the working wavelength, the traditional lens analysis tools such as ray-tracing method will lose their accuracy. The FDTD method can be used to advantage in the nano-lens simulation. OptiFDTD software also provides tools so that beam focus size, focus distance, and far-field transform can be obtained directly. The following two samples illustrate nano-lens simulations.
Optical Grating simulations using OptiFDTD
Optical gratings are basically periodic layouts that may contain chirp or apodization. The wave inside the grating may be complex: Scattered field, transmitted field, diffracted field are all exist, which demand more advanced simulation tools for highly accurate results.
Photonic Bandgap Micro-cavity in Optical Waveguide
This example illustrates a high contrast ridge waveguide with PBG air holes drilled in the waveguide. The PBG has a defect in the center which will lead to resonance in the wave propagation.
Validation References
Download the complete list of validation references (Excel format)
