Add to ORKGThe focal depth of an arbitrary image is extended by optimization of the amplitude and phase distributions over the entire image. We propose a general method that takes advantage of a detector’s (possibly nonlinear) response to incident intensity. We demonstrate the method by computer simulations and experimentally, using computer-generated holograms
Theories are developed to quantify the shift of image intensity extremum (/spl Delta/x) due to aberr...
In trying to manipulate the intensity distribution of a focused field, one typically uses amplitude ...
Increasing the depth of field (DOF) of compact visible high resolution cameras while maintaining hig...
s and utilizing a detector's intensity response to yield arbitrary PND binary images. We begin...
This Letter demonstrates that coherent diffractive imaging (CDI), in combination with phase-diversit...
The ambiguity function (AF) provides a convenient way to model how a camera with a modified aperture...
A general method is presented of optimizing one-dimensional holograms to realize an arbitrary diffra...
An object in the scene whose image appears to be in focus is said to lie within the depth of field. ...
We experimentally implement a direct, non-iterative method for recovering the complex wave in the ex...
Focusing light through scattering media has broad applications in optical imaging, manipulation and ...
Focusing light through scattering media has broad applications in optical imaging, manipulation and ...
In trying to manipulate the intensity distribution of a focused field, one typically uses amplitude ...
This Letter develops a framework for digital holography at optical wavelengths by merging phase-shif...
In trying to manipulate the intensity distribution of a focused field, one typically uses amplitude ...
Focusing light through scattering media has broad applications in optical imaging, manipulation and ...
Theories are developed to quantify the shift of image intensity extremum (/spl Delta/x) due to aberr...
In trying to manipulate the intensity distribution of a focused field, one typically uses amplitude ...
Increasing the depth of field (DOF) of compact visible high resolution cameras while maintaining hig...
s and utilizing a detector's intensity response to yield arbitrary PND binary images. We begin...
This Letter demonstrates that coherent diffractive imaging (CDI), in combination with phase-diversit...
The ambiguity function (AF) provides a convenient way to model how a camera with a modified aperture...
A general method is presented of optimizing one-dimensional holograms to realize an arbitrary diffra...
An object in the scene whose image appears to be in focus is said to lie within the depth of field. ...
We experimentally implement a direct, non-iterative method for recovering the complex wave in the ex...
Focusing light through scattering media has broad applications in optical imaging, manipulation and ...
Focusing light through scattering media has broad applications in optical imaging, manipulation and ...
In trying to manipulate the intensity distribution of a focused field, one typically uses amplitude ...
This Letter develops a framework for digital holography at optical wavelengths by merging phase-shif...
In trying to manipulate the intensity distribution of a focused field, one typically uses amplitude ...
Focusing light through scattering media has broad applications in optical imaging, manipulation and ...
Theories are developed to quantify the shift of image intensity extremum (/spl Delta/x) due to aberr...
In trying to manipulate the intensity distribution of a focused field, one typically uses amplitude ...
Increasing the depth of field (DOF) of compact visible high resolution cameras while maintaining hig...