Novel all-dielectric beam shaping elements were developed based on guided mode resonance (GMR) filters. This was achieved by spatially varying the duty cycle of a hexagonal-cell GMR filter, to locally detune from the resonant condition, which resulted in modified wavelength dependent reflection and transmission profiles, across the device aperture. This paper presents the design, fabrication, and characterization of the device and compares simulations to experimental results
In this dissertation, the fabrication and characterization of various types of guided-mode resonance...
In this work, a spectrally selective optical element is introduced based on a 2-D guided mode resona...
Guided-mode resonant (GMR) structure using hexagonal-lattice grating is proposed to enhance angular ...
Guided mode resonance filters (GMRF) combine subwavelength gratings and planar slab waveguides to cr...
Guided-mode resonance filters (GMRFs) are highly compact structures that can produce a strong freque...
A wide range of applications currently utilize conventional optical elements to individually transfo...
This dissertation develops a theoretical framework for guided mode resonance filters (GMRFs) with su...
New and novel sensing schemes require optical functions with unconventional spatial light distributi...
A novel multiline filter using a two-dimensional guided-mode resonant (GMR) filter is proposed. The ...
International audienceGuided-mode resonance filters are a new class of optical filters relying on su...
A novel multiline filter using a two-dimensional guided-mode resonant (GMR) filter is proposed. The ...
In this work, a single-layer, multiple-channel guided mode resonance (GMR) Brewster filter with cont...
A novel multi-line filter using two-dimensional guided mode resonant (2D-GMR) filter is proposed. Th...
International audienceCRIGF is a new generation of narrowband filter. It consists of subwavelength g...
The paper demonstrates spatial filtering in reflection based on meta-mirrors, composed of periodic s...
In this dissertation, the fabrication and characterization of various types of guided-mode resonance...
In this work, a spectrally selective optical element is introduced based on a 2-D guided mode resona...
Guided-mode resonant (GMR) structure using hexagonal-lattice grating is proposed to enhance angular ...
Guided mode resonance filters (GMRF) combine subwavelength gratings and planar slab waveguides to cr...
Guided-mode resonance filters (GMRFs) are highly compact structures that can produce a strong freque...
A wide range of applications currently utilize conventional optical elements to individually transfo...
This dissertation develops a theoretical framework for guided mode resonance filters (GMRFs) with su...
New and novel sensing schemes require optical functions with unconventional spatial light distributi...
A novel multiline filter using a two-dimensional guided-mode resonant (GMR) filter is proposed. The ...
International audienceGuided-mode resonance filters are a new class of optical filters relying on su...
A novel multiline filter using a two-dimensional guided-mode resonant (GMR) filter is proposed. The ...
In this work, a single-layer, multiple-channel guided mode resonance (GMR) Brewster filter with cont...
A novel multi-line filter using two-dimensional guided mode resonant (2D-GMR) filter is proposed. Th...
International audienceCRIGF is a new generation of narrowband filter. It consists of subwavelength g...
The paper demonstrates spatial filtering in reflection based on meta-mirrors, composed of periodic s...
In this dissertation, the fabrication and characterization of various types of guided-mode resonance...
In this work, a spectrally selective optical element is introduced based on a 2-D guided mode resona...
Guided-mode resonant (GMR) structure using hexagonal-lattice grating is proposed to enhance angular ...
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