In this work we demonstrate the advantages of investigating diffractive optical elements in the phase domain. In this regime we can detect features that are not restrained by the diffraction limit and relate them to the geometrical and optical properties of the sample under test. To accomplish that, we use the custom made spectral high resolution interference microscope. Phase map recordings allow for easier and more precise localization of the positions, where phase changes happen. We show the localization capabilities by detecting phase singularities created by a trench. We also apply the concept to abrupt phase jumps of a phase diffractive component and determine the achievable resolution
International audienceWe propose an experimental set-up working in the optical domain for determinin...
We describe a new scanning microscopy technique, phase-dispersion microscopy (PDM). The technique is...
We report the experimental observation of systematically occurring phase singularities in coherent i...
Abstract: High Resolution Interference Microscopy (HRIM) is a technique that allows the characteriza...
We will present experimental and theoretical studies of optical fields with subwavelength structures...
The main obstacle in retrieving quantitative phase with high sensitivity is posed by the phase noise...
In this study, we apply interferometric microscopy to study the phase, alongside the intensity, of t...
International audienceWe present a new multi-illumination technique for the determination of the pha...
High Resolution Interference Microscopy (HRIM) is a technique that allows the characterization of am...
The concept of phase, introduced on the study of the Diffractive Optical Elements (DOEs), presents s...
Computational imaging has become an important field, as a merger of both algorithms and physical exp...
Ultra high-resolution measurements of amplitude and phase fields emerging from fine period amplitude...
In the paper authors present a special measurement system for observing phase objects. The diffracti...
Quantitative phase imaging (QPI) is a flourishing new field which has recently found tremendous succ...
We present a theory stating how to overcome the classical Rayleigh-resolution limit. It is based upo...
International audienceWe propose an experimental set-up working in the optical domain for determinin...
We describe a new scanning microscopy technique, phase-dispersion microscopy (PDM). The technique is...
We report the experimental observation of systematically occurring phase singularities in coherent i...
Abstract: High Resolution Interference Microscopy (HRIM) is a technique that allows the characteriza...
We will present experimental and theoretical studies of optical fields with subwavelength structures...
The main obstacle in retrieving quantitative phase with high sensitivity is posed by the phase noise...
In this study, we apply interferometric microscopy to study the phase, alongside the intensity, of t...
International audienceWe present a new multi-illumination technique for the determination of the pha...
High Resolution Interference Microscopy (HRIM) is a technique that allows the characterization of am...
The concept of phase, introduced on the study of the Diffractive Optical Elements (DOEs), presents s...
Computational imaging has become an important field, as a merger of both algorithms and physical exp...
Ultra high-resolution measurements of amplitude and phase fields emerging from fine period amplitude...
In the paper authors present a special measurement system for observing phase objects. The diffracti...
Quantitative phase imaging (QPI) is a flourishing new field which has recently found tremendous succ...
We present a theory stating how to overcome the classical Rayleigh-resolution limit. It is based upo...
International audienceWe propose an experimental set-up working in the optical domain for determinin...
We describe a new scanning microscopy technique, phase-dispersion microscopy (PDM). The technique is...
We report the experimental observation of systematically occurring phase singularities in coherent i...