Add to ORKGA detailed model of the diffraction of plane and Gaussian beams on plane uniform phase Bragg gratings based on Kogelnik\u27s theory of coupled waves is presented. The model describes transmitting gratings with arbitrary orientation in a plane-parallel plate taking into account spectral width and angular divergence of laser beams along with material dispersion of a photosensitive medium. The model results are compared with experimental data for high- efficiency Bragg gratings in a photothermorefractive (PTR) glass
A model is presented for analyzing volume Bragg gratings having large diffractive strength that may ...
The PSM model of grating diffraction is extended to include a complex refractive index for the case ...
This work presents the use of longitudinal refractive index modulation (apodization) in photosensiti...
A detailed model of diffraction of plane and Gaussian beams on plane uniform phase Bragg gratings ba...
A detailed model of diffraction of Gaussian beams on plane uniform volume Bragg gratings based on a ...
A detailed model of diffraction of Gaussian beams on plane uniform volume Bragg gratings based on a ...
Volume gratings were studied both theoretically and experimentally in order to design and analyze pr...
In this work we make a comparative study between different theories to predict the efficiencies of t...
We demonstrate edge-enhanced imaging produced by volume phase gratings recorded on a polyvinyl alcoh...
We report on the characteristics of ultrashort laser pulse diffraction by transmitting volume Bragg ...
Kogelnik's coupled-wave (CW) theory has been used for decades to predict the diffraction efficiency ...
In this work we present a grating matrix method to describe the properties of volume transmission di...
We report on the characteristics of ultrashort laser pulse diffraction by transmitting volume Bragg ...
Chapter 1 outlines the development of both ruling and holographic techniques for the production of d...
In this work we present an analysis of non-slanted reflection gratings by using a corrected Coupled ...
A model is presented for analyzing volume Bragg gratings having large diffractive strength that may ...
The PSM model of grating diffraction is extended to include a complex refractive index for the case ...
This work presents the use of longitudinal refractive index modulation (apodization) in photosensiti...
A detailed model of diffraction of plane and Gaussian beams on plane uniform phase Bragg gratings ba...
A detailed model of diffraction of Gaussian beams on plane uniform volume Bragg gratings based on a ...
A detailed model of diffraction of Gaussian beams on plane uniform volume Bragg gratings based on a ...
Volume gratings were studied both theoretically and experimentally in order to design and analyze pr...
In this work we make a comparative study between different theories to predict the efficiencies of t...
We demonstrate edge-enhanced imaging produced by volume phase gratings recorded on a polyvinyl alcoh...
We report on the characteristics of ultrashort laser pulse diffraction by transmitting volume Bragg ...
Kogelnik's coupled-wave (CW) theory has been used for decades to predict the diffraction efficiency ...
In this work we present a grating matrix method to describe the properties of volume transmission di...
We report on the characteristics of ultrashort laser pulse diffraction by transmitting volume Bragg ...
Chapter 1 outlines the development of both ruling and holographic techniques for the production of d...
In this work we present an analysis of non-slanted reflection gratings by using a corrected Coupled ...
A model is presented for analyzing volume Bragg gratings having large diffractive strength that may ...
The PSM model of grating diffraction is extended to include a complex refractive index for the case ...
This work presents the use of longitudinal refractive index modulation (apodization) in photosensiti...