Multiplicative acousto-optic architectures using time and space dimensions for spectrally resolving long 1-D signals and images are described. The Discrete Fourier Transform algorithm is implemented optically to provide fine frequency resolving power. Experimental results are presented for 1-D and 2-D input signals. Bias removal techniques are discussed, including an approach using a photorefractive crystal as a time integrating bias-free detector
Introduction. Among acousto-optic spectrum analyzers with spatial integration, schemes based on opti...
A novel in-line additive acoustooptic architecture for planar phased arrays is described for two dim...
Systems which form many spatial beams (beamformers) for the RF and microwave spectral bands output e...
Time and space integrating folded spectrum techniques utilizing acousto-optic devices (AOD) as 1-D i...
A novel, efficient, stable, in-line, two Bragg cell, acousto-optic architecture is introduced for si...
A novel two dimensional acousto-optic processor is introduced for a variety of two dimensional signa...
Novel space integrating acousto-optic correlators and convolvers are introduced that are based on th...
A robust signal processor, capable of handling a multitude of signal processing functions over a wid...
In-line additive acousto-optic architectures for linear and planar phased arrays are described for o...
An optical processing method is presented which allows the correlation of two images to be computed ...
An acoustooptic time-integrating correlator is demonstrated using a photorefractive crystal as the t...
Cataloged from PDF version of article.Analog Fourier optical processing systems can perform importan...
It is common to want to correct signals that have been corrupted by wideband dispersion. If the disp...
This chapter describes advanced functionalities for optical signal processing using optical time len...
Parmi les techniques d'imagerie optiques utilisées en milieu clinique, la principale limitation est ...
Introduction. Among acousto-optic spectrum analyzers with spatial integration, schemes based on opti...
A novel in-line additive acoustooptic architecture for planar phased arrays is described for two dim...
Systems which form many spatial beams (beamformers) for the RF and microwave spectral bands output e...
Time and space integrating folded spectrum techniques utilizing acousto-optic devices (AOD) as 1-D i...
A novel, efficient, stable, in-line, two Bragg cell, acousto-optic architecture is introduced for si...
A novel two dimensional acousto-optic processor is introduced for a variety of two dimensional signa...
Novel space integrating acousto-optic correlators and convolvers are introduced that are based on th...
A robust signal processor, capable of handling a multitude of signal processing functions over a wid...
In-line additive acousto-optic architectures for linear and planar phased arrays are described for o...
An optical processing method is presented which allows the correlation of two images to be computed ...
An acoustooptic time-integrating correlator is demonstrated using a photorefractive crystal as the t...
Cataloged from PDF version of article.Analog Fourier optical processing systems can perform importan...
It is common to want to correct signals that have been corrupted by wideband dispersion. If the disp...
This chapter describes advanced functionalities for optical signal processing using optical time len...
Parmi les techniques d'imagerie optiques utilisées en milieu clinique, la principale limitation est ...
Introduction. Among acousto-optic spectrum analyzers with spatial integration, schemes based on opti...
A novel in-line additive acoustooptic architecture for planar phased arrays is described for two dim...
Systems which form many spatial beams (beamformers) for the RF and microwave spectral bands output e...