Add to ORKGThrough advances in semiconductor miniaturization technology, microrelief patterns, with characteristic dimensions as small as the wavelength of light, can now be mass reproduced to form high-quality and low-cost optical components. In a unique example of technology transfer, from electronics to optics, this capability is allowing optics designers to create innovative optical components that promise to solve key problems in optical sensors, optical communication channels, and optical processors
Micromachining technology opens up many new opportunities for optical and optoelectronic systems. It...
Microoptics is an important enabling technology for many areas of application. In this updated secon...
We have fabricated a variety of micro-optic components including Fresnel and non-Frensel lenses, off...
Micro-optics describes a family of elements and systems fabricated by modern micromachining. Optical...
The current generation of electro-optical sensors utilizing refractive and reflective optical elemen...
As imaging and photonics technology is advancing to smaller and complex devices there is increasing ...
Microoptical components, such as diffractive and refractive microlenses, micromirrors, beam splitter...
We have developed different approaches for optical beam deflection on the base of transmittive micro...
The progress in novel light sources, detectors, materials and technology enable new opportunities an...
Spatial light modulators are the well known digital mirror devices (DMD). micromechanical switching ...
MEMS (micro-electro-mechanical system) technology is an established field, which makes use of the ad...
To date, there have been many techniques used to generate micro-optic structures in glass or other m...
Structure at or below the wavelength of light can greatly modify the optical properties of materials...
Wafer-level micro-optics is a key component for many optical modules or systems. Refractive and diff...
[[abstract]]We have developed novel optical micro-electro-mechanical systems, (MEMS) and nano-electr...
Micromachining technology opens up many new opportunities for optical and optoelectronic systems. It...
Microoptics is an important enabling technology for many areas of application. In this updated secon...
We have fabricated a variety of micro-optic components including Fresnel and non-Frensel lenses, off...
Micro-optics describes a family of elements and systems fabricated by modern micromachining. Optical...
The current generation of electro-optical sensors utilizing refractive and reflective optical elemen...
As imaging and photonics technology is advancing to smaller and complex devices there is increasing ...
Microoptical components, such as diffractive and refractive microlenses, micromirrors, beam splitter...
We have developed different approaches for optical beam deflection on the base of transmittive micro...
The progress in novel light sources, detectors, materials and technology enable new opportunities an...
Spatial light modulators are the well known digital mirror devices (DMD). micromechanical switching ...
MEMS (micro-electro-mechanical system) technology is an established field, which makes use of the ad...
To date, there have been many techniques used to generate micro-optic structures in glass or other m...
Structure at or below the wavelength of light can greatly modify the optical properties of materials...
Wafer-level micro-optics is a key component for many optical modules or systems. Refractive and diff...
[[abstract]]We have developed novel optical micro-electro-mechanical systems, (MEMS) and nano-electr...
Micromachining technology opens up many new opportunities for optical and optoelectronic systems. It...
Microoptics is an important enabling technology for many areas of application. In this updated secon...
We have fabricated a variety of micro-optic components including Fresnel and non-Frensel lenses, off...