When optical signals, like diffraction patterns, are processed by digital means the choice of sampling density and geometry is important during analog-to-digital conversion. Continuous band-limited signals can be sampled and recovered from their samples in accord with the Nyquist sampling criteria. The specific form of the convolution kernel that describes the Fresnel diffraction allows another, alternative, full-reconstruction procedure of an object from the samples of its diffraction pattern when the object is space limited. This alternative procedure is applicable and yields full reconstruction even when the diffraction pattern is undersampled and the Nyquist criteria are severely violated. Application of the new procedure to practical d...
It is demonstrated that an object distribution can be successfully retrieved from its diffraction pa...
Sampling rules for numerically calculating ultrashort pulse fields are discussed. Such pulses are no...
The quadratic phase function is fundamental in describing and computing wave-propagation-related phe...
The theorems of Nyquist, Shannon and Whittaker have long held true for sampling optical signals. The...
The theorems of Nyquist, Shannon and Whittaker have long held true for sampling optical signals. The...
Diffraction algorithms with adjustable magnification are dominant in holographic projection and imag...
If the sampled diffraction pattern due to a planar object is used to reconstruct the object pattern ...
Numerical calculation of diffraction integrals remains a challenge in modern optics, with applicatio...
The evaluation of the Rayleigh-Sommerfeld diffraction formula by means of numerical convolution and ...
Accurate simulation of scalar optical diffraction requires consideration of the sampling requirement...
Cataloged from PDF version of article.If the sampled diffraction pattern due to a planar object is u...
In recent years the field of digital holography became an attractive research area following the dev...
The numerically reconstructed images in digital holography contain two undesirable features. After r...
Dynamic holographic reconstructions can be obtained by employing digital holographic video displays ...
In this paper, a fast algorithm is proposed for accurate calculation of the scalar optical diffracti...
It is demonstrated that an object distribution can be successfully retrieved from its diffraction pa...
Sampling rules for numerically calculating ultrashort pulse fields are discussed. Such pulses are no...
The quadratic phase function is fundamental in describing and computing wave-propagation-related phe...
The theorems of Nyquist, Shannon and Whittaker have long held true for sampling optical signals. The...
The theorems of Nyquist, Shannon and Whittaker have long held true for sampling optical signals. The...
Diffraction algorithms with adjustable magnification are dominant in holographic projection and imag...
If the sampled diffraction pattern due to a planar object is used to reconstruct the object pattern ...
Numerical calculation of diffraction integrals remains a challenge in modern optics, with applicatio...
The evaluation of the Rayleigh-Sommerfeld diffraction formula by means of numerical convolution and ...
Accurate simulation of scalar optical diffraction requires consideration of the sampling requirement...
Cataloged from PDF version of article.If the sampled diffraction pattern due to a planar object is u...
In recent years the field of digital holography became an attractive research area following the dev...
The numerically reconstructed images in digital holography contain two undesirable features. After r...
Dynamic holographic reconstructions can be obtained by employing digital holographic video displays ...
In this paper, a fast algorithm is proposed for accurate calculation of the scalar optical diffracti...
It is demonstrated that an object distribution can be successfully retrieved from its diffraction pa...
Sampling rules for numerically calculating ultrashort pulse fields are discussed. Such pulses are no...
The quadratic phase function is fundamental in describing and computing wave-propagation-related phe...