Add to ORKGWe present an experimental study of the behavior of photorefractive double phase-conjugate mirrors that illustrates recent theoretical predictions. We observe a sharp fidelity threshold that significantly depends on the specific feature size in the input beams. Furthermore, we find that if the two input beams have unequal intensities the conjugation process is asymmetric and the steady-state fidelity is better on the side of the crystal on which the more-intense beam enters
Phase-conjugate mirrors on the basis of photorefractive crystals offer interesting possibilities of ...
This thesis describes and assesses experimentally novel configurations for various types of phase co...
We describe incoherent beam coupling using the double phase-conjugate mirror arrangement between a l...
We model the double phase-conjugate mirror (DPCM) as a function of time, the average direction of pr...
We present wave-optics calculations of the temporal and spatial evolution from random noise of a dou...
We present wave-optics calculations of the temporal and spatial evolution from random noise of a dou...
Photorefractive simple and double phase-conjugate mirrors very often exhibit strong instabilities in...
The large electro-optic coefficient of photorefractive materials such as BaTiO3 has allowed the obse...
The properties of photorefractive phase conjugate mirror configurations are investigated. It is sho...
The development of a theory of four-wave mixing in photo-refractive crystals is described. This theo...
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 propose and analyze a new type of phase conjugation between counterpropagating beams in photorefr...
We describe the experimental measurement of phase-conjugate reflectivity versus various ratios of in...
A method for sustaining multiply exposed photorefractive holograms, in a phase-locked fashion, by us...
Phase-conjugate mirrors on the basis of photorefractive crystals offer interesting possibilities of ...
This thesis describes and assesses experimentally novel configurations for various types of phase co...
We describe incoherent beam coupling using the double phase-conjugate mirror arrangement between a l...
We model the double phase-conjugate mirror (DPCM) as a function of time, the average direction of pr...
We present wave-optics calculations of the temporal and spatial evolution from random noise of a dou...
We present wave-optics calculations of the temporal and spatial evolution from random noise of a dou...
Photorefractive simple and double phase-conjugate mirrors very often exhibit strong instabilities in...
The large electro-optic coefficient of photorefractive materials such as BaTiO3 has allowed the obse...
The properties of photorefractive phase conjugate mirror configurations are investigated. It is sho...
The development of a theory of four-wave mixing in photo-refractive crystals is described. This theo...
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 propose and analyze a new type of phase conjugation between counterpropagating beams in photorefr...
We describe the experimental measurement of phase-conjugate reflectivity versus various ratios of in...
A method for sustaining multiply exposed photorefractive holograms, in a phase-locked fashion, by us...
Phase-conjugate mirrors on the basis of photorefractive crystals offer interesting possibilities of ...
This thesis describes and assesses experimentally novel configurations for various types of phase co...
We describe incoherent beam coupling using the double phase-conjugate mirror arrangement between a l...