Add to ORKGWe present a new type of phase-conjugate mirror that is based on an externally driven Fabry-Perot interferometer with intracavity-pumped photorefractive material, which is probed by the signal beam. It is shown theoretically that such a configuration leads to multivalued solutions and possibly to bistability. This configuration also permits optical control of the resonator output and electrical control of the phase-conjugate reflectivity
This thesis is an experimental and theoretical investigation of wave-mixing in photorefractive cryst...
The properties of photorefractive phase conjugate mirror configurations are investigated. It is sho...
An exact solution of a nonlinear model of holographic four-wave mixing is derived. An expression for...
We present a new type of phase-conjugate mirror that is based on an externally driven Fabry-Perot in...
We describe semi-self-pumped photorefractive phase-conjugate mirrors based on the unidirectional rin...
We present a plane-wave theory of nondegenerate oscillation in the linear passive (self-pumped) phas...
We present an experimental study of the behavior of photorefractive double phase-conjugate mirrors t...
The development of a theory of four-wave mixing in photo-refractive crystals is described. This theo...
A theory for oscillation in an optical resonator with photorefractive gain was formulated. The thres...
We present wave-optics calculations of the temporal and spatial evolution from random noise of a dou...
The basic physical principles responsible for two-wave interaction via an impressed grati...
The large electro-optic coefficient of photorefractive materials such as BaTiO3 has allowed the obse...
A theoretical and experimental study of four-wave mixing in photorefractive crystals like SBN and Ba...
A method for sustaining multiply exposed photorefractive holograms, in a phase-locked fashion, by us...
We propose and analyze a new type of phase conjugation between counterpropagating beams in photorefr...
This thesis is an experimental and theoretical investigation of wave-mixing in photorefractive cryst...
The properties of photorefractive phase conjugate mirror configurations are investigated. It is sho...
An exact solution of a nonlinear model of holographic four-wave mixing is derived. An expression for...
We present a new type of phase-conjugate mirror that is based on an externally driven Fabry-Perot in...
We describe semi-self-pumped photorefractive phase-conjugate mirrors based on the unidirectional rin...
We present a plane-wave theory of nondegenerate oscillation in the linear passive (self-pumped) phas...
We present an experimental study of the behavior of photorefractive double phase-conjugate mirrors t...
The development of a theory of four-wave mixing in photo-refractive crystals is described. This theo...
A theory for oscillation in an optical resonator with photorefractive gain was formulated. The thres...
We present wave-optics calculations of the temporal and spatial evolution from random noise of a dou...
The basic physical principles responsible for two-wave interaction via an impressed grati...
The large electro-optic coefficient of photorefractive materials such as BaTiO3 has allowed the obse...
A theoretical and experimental study of four-wave mixing in photorefractive crystals like SBN and Ba...
A method for sustaining multiply exposed photorefractive holograms, in a phase-locked fashion, by us...
We propose and analyze a new type of phase conjugation between counterpropagating beams in photorefr...
This thesis is an experimental and theoretical investigation of wave-mixing in photorefractive cryst...
The properties of photorefractive phase conjugate mirror configurations are investigated. It is sho...
An exact solution of a nonlinear model of holographic four-wave mixing is derived. An expression for...