By performing two-beam coupling experiments in a liquid crystal light-valve, optical beam amplification is obtained as a strongly resonant process to which a narrow frequency bandwidth is associated. By exploiting this property, we realize an adaptive holographic inter aerometric system that is able to efficiently sensing displacements as small as fraction of picometers. The adaptive interferometer allows also to detect acoustic waves imparted as phase modulations in complex wave fronts, like speckle fields. Another example encompasses the nonlinear detection of angular accelerations
We present an adaptive interferometer based on the reflection dynamic hologram recorded in photorefr...
Holographic interferometry with a phase-modulated reference beam is applied to an acoustic holograph...
For the last two decades adaptive optics has been used as a technique for correcting imaging applica...
By performing two-wave mixing experiments in a liquid crystal light-valve, optical beam amplificatio...
By performing two-wave mixing experiments in a liquid crystal light-valve, optical beam amplificatio...
A modified technique of dynamic holographic interferometry is described which allows high-frequency ...
International audienceProbing local displacements on a scattering surface can be achieved using an a...
Adaptive optics is concerned with the correction of phase distortions in wavefronts which degrade th...
Ces dernières années, des avancées considérables ont été obtenues dans le domaine des capteurs à fib...
Controlling the group velocity of light is a valuable resource for quantum and classical optical pro...
We will present the basic properties of photorefractive crystals and show how they can be used effic...
The theoretical basis of a specialized technique for applying digital holographic interferometry to ...
This Letter develops a framework for digital holography at optical wavelengths by merging phase-shif...
Materials exhibiting effective nonlinearity through refractive index modulation at relatively low op...
Generally there are two categories of noncontact laser interferometric methods commonly used in dyna...
We present an adaptive interferometer based on the reflection dynamic hologram recorded in photorefr...
Holographic interferometry with a phase-modulated reference beam is applied to an acoustic holograph...
For the last two decades adaptive optics has been used as a technique for correcting imaging applica...
By performing two-wave mixing experiments in a liquid crystal light-valve, optical beam amplificatio...
By performing two-wave mixing experiments in a liquid crystal light-valve, optical beam amplificatio...
A modified technique of dynamic holographic interferometry is described which allows high-frequency ...
International audienceProbing local displacements on a scattering surface can be achieved using an a...
Adaptive optics is concerned with the correction of phase distortions in wavefronts which degrade th...
Ces dernières années, des avancées considérables ont été obtenues dans le domaine des capteurs à fib...
Controlling the group velocity of light is a valuable resource for quantum and classical optical pro...
We will present the basic properties of photorefractive crystals and show how they can be used effic...
The theoretical basis of a specialized technique for applying digital holographic interferometry to ...
This Letter develops a framework for digital holography at optical wavelengths by merging phase-shif...
Materials exhibiting effective nonlinearity through refractive index modulation at relatively low op...
Generally there are two categories of noncontact laser interferometric methods commonly used in dyna...
We present an adaptive interferometer based on the reflection dynamic hologram recorded in photorefr...
Holographic interferometry with a phase-modulated reference beam is applied to an acoustic holograph...
For the last two decades adaptive optics has been used as a technique for correcting imaging applica...