We report the experimental observation of systematically occurring phase singularities in coherent imaging of sub-Rayleigh distanced objects. A theory that relates the observation to the sub-Rayleigh distance is presented and compared with experimental measurements. As a consequence, the limit of resolution with coherent illumination is extended by a factor of 1.64×
Theory describing a super-resolution microscopy experiment using temporally and spatially coherent s...
A ghost imaging scheme is used to observe the diffraction pattern of a pure phase object . It is obs...
The Rayleigh diffraction bound sets the minimum separation for two point objects to be distinguishab...
We present a theory stating how to overcome the classical Rayleigh-resolution limit. It is based upo...
We will present experimental and theoretical studies of optical fields with subwavelength structures...
In this work, we propose using camera arrays coupled with coherent illumination as an effective meth...
This paper concerns the use of phase information from band-pass signals for the measurement of binoc...
In this work we demonstrate the advantages of investigating diffractive optical elements in the phas...
Modern microscopy techniques are developing towards high-resolution imaging, and tremendous progress...
Because of the wave nature of light, image resolution is limited by the diffraction effects of the f...
We present measurements of the intensity as well as the phase distribution in the various diffractio...
Resolution is crucially important for optical imaging, which defines the smallest spatial feature of...
When used with coherent light, optical imaging systems are inherently unable to reproduce both the a...
This work studies the nature of super-resolution, the phenomenon of resolution beyond the diffractio...
Experimental data with unprecedented submicrometre resolution obtained in a phase-contrast radiograp...
Theory describing a super-resolution microscopy experiment using temporally and spatially coherent s...
A ghost imaging scheme is used to observe the diffraction pattern of a pure phase object . It is obs...
The Rayleigh diffraction bound sets the minimum separation for two point objects to be distinguishab...
We present a theory stating how to overcome the classical Rayleigh-resolution limit. It is based upo...
We will present experimental and theoretical studies of optical fields with subwavelength structures...
In this work, we propose using camera arrays coupled with coherent illumination as an effective meth...
This paper concerns the use of phase information from band-pass signals for the measurement of binoc...
In this work we demonstrate the advantages of investigating diffractive optical elements in the phas...
Modern microscopy techniques are developing towards high-resolution imaging, and tremendous progress...
Because of the wave nature of light, image resolution is limited by the diffraction effects of the f...
We present measurements of the intensity as well as the phase distribution in the various diffractio...
Resolution is crucially important for optical imaging, which defines the smallest spatial feature of...
When used with coherent light, optical imaging systems are inherently unable to reproduce both the a...
This work studies the nature of super-resolution, the phenomenon of resolution beyond the diffractio...
Experimental data with unprecedented submicrometre resolution obtained in a phase-contrast radiograp...
Theory describing a super-resolution microscopy experiment using temporally and spatially coherent s...
A ghost imaging scheme is used to observe the diffraction pattern of a pure phase object . It is obs...
The Rayleigh diffraction bound sets the minimum separation for two point objects to be distinguishab...