The fundamentals of the guided-mode resonance effect occurring in periodic layers are

presented. The chief features of the associated photonic leaky-mode band structure are explained.

Photonic device applications ...

The spectral properties of high-reflection mirrors imbued with two-dimensional (2D) subwavelength periodicity are investigated. The reflectors are designed in a silicon-on-glass film that is partially etched to implement ...

We provide experimental evidence of a hybrid photonic device supporting simultaneously

surface-plasmon polaritons and resonant leaky modes. A fabricated metallo-dielectric structure

exhibits a pronounced ...

Particle swann optimization (PSO) is an evolutionary, easy-to-implement and promising technique to design optical diffraction gratings. In this paper, principles of PSO are reviewed, and then

PSO is utilized to design of guided-mode resonance...

A dielectric grating on a metallic substrate permits excitation of both surface-plasmon polaritons (SPPs) and resonant leaky-modes. We compare the spectral characteristics and local field structure of the excited classical ...

Leaky-mode resonance bandpass filters are designed with particle swarm optimization. The spectral phase properties of these elements are studied. It is shown that these elements can operate as optical delay lines.

A MEMS-tunable narrow bandpass filter concept is presented. This filter is based on the phase shift effect between two gratings resulting from halving a broadband high reflector guided-mode resonance structure.