Diffractive optical elements (DOE) utilize diffraction to manipulate light in optical systems. These elements have a wide range of applications including optical interconnects, coherent beam addition, laser beam shaping and refractive optics aberration correction. Due to the wide range of applications, optimal design of DOE has become an important research problem. In the design of the DOEs, existing techniques utilize the Fresnel diffraction theory to compute the phase at the desired location at the output plane. This process involves solving nonlinear integral equations for which various numerical methods along with robust optimization algorithms exist in literature. However all the algorithms proposed so far assume that the size and the ...
End-to-end optimization of diffractive optical elements (DOEs) profile through a digital differentia...
Optical logic operations lie at the heart of optical computing, and they enable many applications su...
Recent developments in the application of aperiodic fiber Bragg gratings (AFBG) in astrophotonics, s...
Compact photonic elements that control both the diffraction and interference of light offer superior...
In this work, we consider how to optimize an optical system, specifically one with diffractive optic...
The inverse design of optical devices that exhibit desired functionalities as well as the solution o...
Deep learning has been revolutionizing information processing in many fields of science and engineer...
A partitionable adaptive multilayer diffractive optical neural network is constructed to address set...
Recently, there has been tremendous researches in Optical neural networks that could complete compar...
Les réseaux photoniques à haute performance peuvent être considérés comme des supports pour les futu...
The need for optically multi-functional micro- and nano-structures is growing in various fields. Des...
We propose an efficient inverse design approach for multifunctional optical elements based on adapti...
Photonic networks with high performance can be considered as substrates for future computing systems...
Optical logic operations lie at the heart of optical computing, and they enable many applications su...
Photonic networks with high performance can be considered as substrates for future computing systems...
End-to-end optimization of diffractive optical elements (DOEs) profile through a digital differentia...
Optical logic operations lie at the heart of optical computing, and they enable many applications su...
Recent developments in the application of aperiodic fiber Bragg gratings (AFBG) in astrophotonics, s...
Compact photonic elements that control both the diffraction and interference of light offer superior...
In this work, we consider how to optimize an optical system, specifically one with diffractive optic...
The inverse design of optical devices that exhibit desired functionalities as well as the solution o...
Deep learning has been revolutionizing information processing in many fields of science and engineer...
A partitionable adaptive multilayer diffractive optical neural network is constructed to address set...
Recently, there has been tremendous researches in Optical neural networks that could complete compar...
Les réseaux photoniques à haute performance peuvent être considérés comme des supports pour les futu...
The need for optically multi-functional micro- and nano-structures is growing in various fields. Des...
We propose an efficient inverse design approach for multifunctional optical elements based on adapti...
Photonic networks with high performance can be considered as substrates for future computing systems...
Optical logic operations lie at the heart of optical computing, and they enable many applications su...
Photonic networks with high performance can be considered as substrates for future computing systems...
End-to-end optimization of diffractive optical elements (DOEs) profile through a digital differentia...
Optical logic operations lie at the heart of optical computing, and they enable many applications su...
Recent developments in the application of aperiodic fiber Bragg gratings (AFBG) in astrophotonics, s...
Add to ORKG