By performing two-wave mixing 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. This property is exploited to realize adaptive holographic interferometric systems able to efficiently detect displacements as small as fraction of picometers. Pressure radiation induced deformations of a reflecting membrane are measured with the same type of system. Then, when used with complex wavefronts, like speckle fields, the LCLV-based interferometer allows to detect extremely small phase modulations. The examples shown demonstrate the potentialities of the light-valve for dynamic holography applications. © 2012 by the authors; licensee MD...
This Letter develops a framework for digital holography at optical wavelengths by merging phase-shif...
[[abstract]]This work investigates the principles, properties of the digital holographic microscopy ...
SIGLEAvailable from British Library Document Supply Centre-DSC:D210525 / BLDSC - British Library Doc...
By performing two-wave mixing experiments in a liquid crystal light-valve, optical beam amplificatio...
By performing two-beam coupling experiments in a liquid crystal light-valve, optical beam amplificat...
An optical valve is realized by associating a nematic liquid crystal layer with a Cr-doped gallium a...
A modified technique of dynamic holographic interferometry is described which allows high-frequency ...
Materials exhibiting effective nonlinearity through refractive index modulation at relatively low op...
We will present the basic properties of photorefractive crystals and show how they can be used effic...
Adaptive optics is concerned with the correction of phase distortions in wavefronts which degrade th...
Abstract Dynamic phase-only beam shaping with a liquid crystal spatial light modulator is a powerful...
International audienceIn a photorefractive liquid crystal light valve, acting as a Kerr-like nonline...
Controlling the group velocity of light is a valuable resource for quantum and classical optical pro...
A novel use of liquid-crystal television (LCTV) is described. It is shown that, if the phase nonunif...
Abstract Holographic light modulation is the most efficient method to shape laser light into well-de...
This Letter develops a framework for digital holography at optical wavelengths by merging phase-shif...
[[abstract]]This work investigates the principles, properties of the digital holographic microscopy ...
SIGLEAvailable from British Library Document Supply Centre-DSC:D210525 / BLDSC - British Library Doc...
By performing two-wave mixing experiments in a liquid crystal light-valve, optical beam amplificatio...
By performing two-beam coupling experiments in a liquid crystal light-valve, optical beam amplificat...
An optical valve is realized by associating a nematic liquid crystal layer with a Cr-doped gallium a...
A modified technique of dynamic holographic interferometry is described which allows high-frequency ...
Materials exhibiting effective nonlinearity through refractive index modulation at relatively low op...
We will present the basic properties of photorefractive crystals and show how they can be used effic...
Adaptive optics is concerned with the correction of phase distortions in wavefronts which degrade th...
Abstract Dynamic phase-only beam shaping with a liquid crystal spatial light modulator is a powerful...
International audienceIn a photorefractive liquid crystal light valve, acting as a Kerr-like nonline...
Controlling the group velocity of light is a valuable resource for quantum and classical optical pro...
A novel use of liquid-crystal television (LCTV) is described. It is shown that, if the phase nonunif...
Abstract Holographic light modulation is the most efficient method to shape laser light into well-de...
This Letter develops a framework for digital holography at optical wavelengths by merging phase-shif...
[[abstract]]This work investigates the principles, properties of the digital holographic microscopy ...
SIGLEAvailable from British Library Document Supply Centre-DSC:D210525 / BLDSC - British Library Doc...