Modern design of complex optical systems relies heavily on computational tools. These typically utilize geometrical optics as well as Fourier optics, which enables the use of diffractive elements to manipulate light with features on the scale of a wavelength. Fourier optics is typically used for designing thin elements, placed in the system's aperture, generating a shift-invariant Point Spread Function (PSF). A major bottleneck in applying Fourier Optics in many cases of interest, e.g. when dealing with multiple, or out-of-aperture elements, comes from numerical complexity. In this work, we propose and implement an efficient and differentiable propagation model based on the Collins integral, which enables the optimization of diffraction opt...
Scalar diffraction theory is usually introduced using the classical Green function approach as a sol...
Permutation matrices form an important computational building block frequently used in various field...
This paper describes a new Fourier propagator for computing the impulse response of an optical syste...
In this work, we consider how to optimize an optical system, specifically one with diffractive optic...
The Point Spread Function (PSF) indirectly encodes the wavefront aberrations of an optical system an...
Diffractive optical elements (kinoforms) change the way light propagates, and can perform very compl...
End-to-end optimization of diffractive optical elements (DOEs) profile through a digital differentia...
Convolutional neural networks are paramount in image and signal processing including the relevant cl...
Research on optical computing has recently attracted significant attention due to the transformative...
In computational optics, numerical modeling of diffraction between arbitrary planes offers unparalle...
Diffractive optical elements (DOE) utilize diffraction to manipulate light in optical systems. These...
Abstract Spatially-engineered diffractive surfaces have emerged as a powerful framework to control l...
Diffractive lenses, such as Fresnel zone plates, photon sieves, and their modified versions, have be...
Ray tracing, a computational method for tracing the trajectories of rays of light through matter, is...
Diffractive optical elements (DOEs) have been studied extensively in optics for decades, but have re...
Scalar diffraction theory is usually introduced using the classical Green function approach as a sol...
Permutation matrices form an important computational building block frequently used in various field...
This paper describes a new Fourier propagator for computing the impulse response of an optical syste...
In this work, we consider how to optimize an optical system, specifically one with diffractive optic...
The Point Spread Function (PSF) indirectly encodes the wavefront aberrations of an optical system an...
Diffractive optical elements (kinoforms) change the way light propagates, and can perform very compl...
End-to-end optimization of diffractive optical elements (DOEs) profile through a digital differentia...
Convolutional neural networks are paramount in image and signal processing including the relevant cl...
Research on optical computing has recently attracted significant attention due to the transformative...
In computational optics, numerical modeling of diffraction between arbitrary planes offers unparalle...
Diffractive optical elements (DOE) utilize diffraction to manipulate light in optical systems. These...
Abstract Spatially-engineered diffractive surfaces have emerged as a powerful framework to control l...
Diffractive lenses, such as Fresnel zone plates, photon sieves, and their modified versions, have be...
Ray tracing, a computational method for tracing the trajectories of rays of light through matter, is...
Diffractive optical elements (DOEs) have been studied extensively in optics for decades, but have re...
Scalar diffraction theory is usually introduced using the classical Green function approach as a sol...
Permutation matrices form an important computational building block frequently used in various field...
This paper describes a new Fourier propagator for computing the impulse response of an optical syste...