Methods for Computer Design of Diffractive Optical Elements by Victor A. Soifer

Cover of: Methods for Computer Design of Diffractive Optical Elements | Victor A. Soifer

Published by Wiley-Interscience .

Written in English

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Edition Notes

Wiley Series in Lasers and Applications

Book details

The Physical Object
Number of Pages784
ID Numbers
Open LibraryOL7611949M
ISBN 100471095338
ISBN 109780471095330

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The breadth of Methods for Computer Design of Diffractive Optical Elements covers DOE production, beginning from the design techniques and the software, to the fabrication technology, experimental studies, and testing of DOEs, including all major DOE application fields and DOE types.

The first inclusive book on the cutting-edge field of modern optics and its applications. For the first time, all the major aspects of designing planar DOEs are covered in one book, comprised of original methods developed by experts at the Russian Academy of Sciences' Image Processing Systems Institute.

The breadth of Methods for Computer Design of Diffractive Optical Elements covers DOE production, beginning from the design techniques. For the first time, all the major aspects of designing planar DOEs are covered in one book, comprised of original methods developed by experts at the Russian Academy of Sciences' Image Processing.

Computer design of diffractive optics provides an authoritative guide to the principles and applications of computer-designed diffractive optics. The theoretical aspects underpinning diffractive optics are initially explored, including the main equations in diffraction theory and diffractive optical.

The breadth of Methods for Computer Design of Diffractive Optical Elements covers DOE production, beginning from the design techniques and the software, to the fabrication technology, experimental studies, and testing of DOEs, including all major DOE application fields and DOE types.

Inverse problem of diffractive optics. The method of coding the phase function of DOE. Discretisation and quantisation of the DOE phase. Computer design and formation of the diffractive microrelief.

Chapter 3: Calculation of diffractive optical elements in geometrical optics approximation. “The coverage of topics is comprehensive and ranges from theoretical analysis of light diffraction and propagation to basic design of diffractive optical elements.

This book can be recommended for undergraduate and graduate students, scientists, and engineers in industry as well as high school teachers and lecturers at universities.". Diffractive optical elements: Fabrication and application Conference Paper (PDF Available) in Proceedings of SPIE - The International Society for Optical Engineering.

Diffractive Optical Elements. Lens Design OPTI Prof. Jose Sasian. Hybrid lens: combined refractive and diffractive power • Computer generated hologram: A hologram produced by calculations in a computer.

Prof. Jose Sasian. The work of a diffractive optical element. Diffractive optical elements (DOEs) shape and split laser beams in an energy-efficient can implement a wide range of applications with minimal light loss – examples of diffractive microoptics can be found in production facilities for laser material processing, in medical laser treatments and diagnostic instruments, in areas such as lighting, printing technologies and lithography.

This high level monograph for the optics research market explores a large number of novel interactive methods and algorithms for calculating the transmission function of phase diffractive optical elements. The text includes accounts of well-established methods and algorithms for calculating DOEs, but its major contribution is to include current met.

This book provides the reader with the broad range of materials that were discussed in a series of short courses presented at Georgia Tech on the design, fabrication, and testing of diffractive optical elements (DOEs).

Although there are not long derivations or detailed methods for specific engineering calculations, the reader should be. Diffractive optics technology provides a new approach to optical design and fabrication using computer-aided design tools and integrated circuit manufacturing methods.

With this approach, one creates an efficient holographic element in the form of a surface relief profile etched into an optical. Methods for Computer Design of Diffractive Optical Elements: 1: : Soifer, Victor A.: Libri in altre lingueFormat: Copertina rigida.

Book Description. This high level monograph for the optics research market explores a large number of novel interactive methods and algorithms for calculating the transmission function of phase diffractive optical elements.

Diffractive optics involves the manipulation of light using diffractive optical elements (DOEs). DOEs are being widely applied in such areas as telecommunications, electronics, laser technologies and biomedical engineering. Computer design - Selection from Computer Design of Diffractive Optics [Book].

WoodheadPublishing Series in Electronic andOptical Materials: Number50 Computer design of diffractive optics Edited by V. Soifer Cambridge International Science Publishing Limited in association with WoodheadPublishing Limited WP WOODHEAD PUBLISHING, Oxford Cambridge Philadelphia New Delhi CISP.

Book Description. This book reviews the computer synthesis of diffractive optical elements (DOE) used for transforming laser radiation and investigating the properties of the wave fields produced. Methods for solving inverse problems of geometrical optics, scalar diffraction theory and electromagnetic theory of diffraction are discussed.

5 Multi-order diffractive optical elements This chapter is concerned with the methods of calculating the multi-order diffractive optical elements (DOE). The term multi-order indicates that the DOE carries out several - Selection from Computer Design of Diffractive Optics [Book].

methods for computer design of diffractive optical elements. Download methods for computer design of diffractive optical elements or read online books in PDF, EPUB, Tuebl, and Mobi Format. Click Download or Read Online button to get methods for computer design of diffractive optical elements book now.

This site is like a library, Use search box in the widget to get ebook that you want. Methods for computer design of diffractive optical elements. New York: Wiley, © (OCoLC) Material Type: Internet resource: Document Type: Book, Internet Resource: All Authors / Contributors: V A Soĭfer.

Computer-aided design of diffractive optical elements Article in Optical Engineering 33(10) October with Reads How we measure 'reads'. Design and Fabrication of Diffractive Optical Elements with MATLAB | A.

Vijaykumar, Shanti Bhattacharya | download | B–OK. Download books for free. Find books. Computer design of diffractive optics provides an authoritative guide to the principles and applications of computer-designed diffractive optics.

The theoretical aspects underpinning diffractive optics are initially explored, including the main equations in diffraction theory and diffractive optical s: 1. design and simulation of diffractive optical elements to offer its customers a competitive solution.

Using in-house developed as well as commercially available state-of-the-art software tools and algorithms, appropriate simulation methods (paraxial or rigorous electromagnetic) are used for optimization of the DOE design. This book reviews the computer synthesis of diffractive optical elements (DOE) used for transforming laser radiation and investigating the properties of the wave fields produced.

Methods for solving inverse problems of geometrical optics, scalar diffraction theory and. This is perhaps the major design challenge in using diffractive optical elements.

Although many optical design software packages permit the use of diffractive optical elements, the ability to include the intensity effects of blazing in various analyses, such as modulation transfer and point spread function, has been limited.

This high level monograph for the optics research market explores a large number of novel interactive methods and algorithms for calculating the transmission function of phase diffractive optical elements. The text includes accounts of well-established methods and algorithms for calculating DOEs, but its major contribution is to include current methods and examine the theoretical and practical.

This book discusses as well the planar optical microlens as an example of a refractive microlens of the gradient-index type and explains the diffractive optical elements. The final chapter describes a method for writing and reading optically in parallel from a three-dimensional matrix by means of two-photon interaction in photochromic organic.

Diffractive optical element generation Generating diffractive optical elements (DOE) is an important problem in field of optical data processing []. DOE can be used as focusing elements [32], for creating 3D-scenes [33], for pattern recognition [], and etc.

Commonly iterative methods such as Gerchberg–Saxton [36] and Fienup [ The ability of diffractive optical elements (DOEs) to efficiently cover a square or rectangular pixel, combined with their capability of working as fast lenses (i.e., ∼f/3) makes them versatile and practical lens designs for use in sparse photon applications using microscale, large-format detector arrays.

Low Cost High Quality Fabrication Methods and CAD for Diffractive Optics and Computer Holograms Compatible with Micro-Electronics and Micro-Mechanics Fabrication. Fabrication of Diffractive Optical Elements by Electron Beam Lithography.

Design of Computer Generated Binary Holograms for Free Space Optical Interconnections. Lin et al. demonstrate all-optical machine learning that uses passive optical components that can be patterned and fabricated with 3D-printing.

Their hardware approach comprises stacked layers of diffractive optical elements analogous to an artificial neural network that can be trained to execute complex functions at the speed of light.

Highly efficient diffractive optical elements (DOEs) can also be realized using modern microfabrication technologies. Computer-generated data for arbitrary phase profiles can be transformed into optical elements.

These elements offer optimum design freedom and established fabrication technology. In Chap a number of applications of diffractive optics in lens design were discussed.

In this chapter we present a survey of additional applications of diffractive lenses as well as gratings, beam shapers, and other types of diffractive optical elements.

Optical elements play a crucial role in many modern systems, from cellphones to missiles. The miniaturization trend poses a challenge to optics, since classical lenses and. Three methods of designing diffractive optical elements (DOE) are compared.

The iterative Fourier transform algorithm (IFTA) is compared to an evolutionary strategy (ES) approach and a combination of both methods. It is shown that the combination of. A fast computation method for solving the optimization problem is proposed.

Examples of three-wavelength diffractive optics with over 90% diffraction efficiency are presented. These diffractive optical elements reconstruct three distinct image patterns when probed using the design wavelengths.

Metasurface is an advanced flat optical component that can flexibly manipulate the electromagnetic wave in an ultrathin dimension. However, electromagnetic coupling among neighbored optical elements decreases the diffractive efficiency and increases the noise.

In this paper, a novel computational method is proposed to optimize the coupling of the metasurface. The demand for high optical resolution has brought researchers to explore the use of beam shaping diffractive optical elements (DOEs) for improving performance of high numerical aperture (NA) optical systems.

DOEs can be designed to modulate the amplitude, phase and/or polarization of a laser beam such that it focuses into a targeted.

The Diffractive Optical Elements that we specialize in is mainly beam splitter type as it is an efficient method of splitting the beam with a precise angular spacing and power level while maintaining the properties (dimension, divergence, polarization) of the input beam.Diffractive optical elements (DOEs) have recently drawn great attention in computational imaging because they can drastically reduce the size and weight of imaging devices compared to their refract.Apparatus for generating a dynamic structured light pattern for optical tracking in three-dimensional space, comprises an array of lasers, such as a VCSEL laser array, to project light in a pattern into a three-dimensional space; and an optical element or elements arranged in cells.

The cells are aligned with subsets of the laser array, and each cell individually applies a modulation, in.

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