Add to ORKGNew types of holographic optical elements, combining the flexibility of computer generated holograms with the large space bandwidth product and high diffraction efficiency of interferometrically recorded volume phase holograms, are demonstrated. The optical elements are recorded by subdividing a volume hologram film surface into numerous small areas (facets), each of which is individually exposed under computer control. Each facet is used to produce a portion of the desired final wavefront. Three different optical elements are demonstrated
The data represent a thorough study of the aberrations and imaging properties of holographic optical...
Since its conception, holography has been put to a variety of uses including data storage, security,...
We present an overview of imaging systems that incorporate a volume hologram as one of the optical f...
The final two papers are concerned with the analysis of novel holograms. Banerjee et al. investigate...
We suggest a method for coding high resolution computer-generated volume holograms. It involves spli...
We suggest a method for coding high resolution computer-generated volume holograms. It involves spli...
The basic properties and use of holographic optical elements were investigated to design and constru...
Computer Graphics Today, many applications for optical holograms exist, including interferometry, co...
Methods for reducing the noise and aberration levels of interferometrically recorded holographic opt...
We suggest a method for coding high-resolution computer-generated volume holograms. It involves spli...
A volume hologram has two degenerate Bragg-phase-matching dimensions and provides the capability of ...
A method for recording of holograms on spherical substrates is presented. As recording material we u...
Holograms formed in photosensitive materials have the ability to store both the intensity and phase ...
The invention of the laser along with the theory of off axis holography made the construction of hol...
Among all imaging techniques that have been invented throughout the last decades, computer graphics ...
The data represent a thorough study of the aberrations and imaging properties of holographic optical...
Since its conception, holography has been put to a variety of uses including data storage, security,...
We present an overview of imaging systems that incorporate a volume hologram as one of the optical f...
The final two papers are concerned with the analysis of novel holograms. Banerjee et al. investigate...
We suggest a method for coding high resolution computer-generated volume holograms. It involves spli...
We suggest a method for coding high resolution computer-generated volume holograms. It involves spli...
The basic properties and use of holographic optical elements were investigated to design and constru...
Computer Graphics Today, many applications for optical holograms exist, including interferometry, co...
Methods for reducing the noise and aberration levels of interferometrically recorded holographic opt...
We suggest a method for coding high-resolution computer-generated volume holograms. It involves spli...
A volume hologram has two degenerate Bragg-phase-matching dimensions and provides the capability of ...
A method for recording of holograms on spherical substrates is presented. As recording material we u...
Holograms formed in photosensitive materials have the ability to store both the intensity and phase ...
The invention of the laser along with the theory of off axis holography made the construction of hol...
Among all imaging techniques that have been invented throughout the last decades, computer graphics ...
The data represent a thorough study of the aberrations and imaging properties of holographic optical...
Since its conception, holography has been put to a variety of uses including data storage, security,...
We present an overview of imaging systems that incorporate a volume hologram as one of the optical f...