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Book Cover
E-book
Author Bhattacharya, Indrani

Title Azimuthal Walsh filters : a tool to produce 2D and 3D light / Indrani Bhattacharya, Lakshminarayan Hazra
Published Singapore : Springer, 2020

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Description 1 online resource
Series Progress in optical science and photonics ; v. 10
Progress in optical science and photonics ; 10.
Contents 1. Introduction 2. Walsh Functions, Walsh Filters And Self-Similarity 2.1 Introduction 2.2 One Dimensional Walsh Functions 2.3 Two Dimensional Walsh Functions 2.3.1 Rectangular Walsh Functions 2.3.2 Polar Walsh Functions 2.4 Radial Walsh Functions 2.5 Azimuthal Walsh Functions 2.6 Self-Similarity In Azimuthal Walsh Functions 2.7 Walsh Filters 2.7.1 Radial Walsh Filters 2.7.2 Azimuthal Walsh Filters 2.8 Self-Similarity In Azimuthal Walsh Functions References 3. Transverse Intensity Distribution On The Far-field Plane Of Azimuthal Walsh Filters 3.1 Introduction 3.2 Analytical Formulation of Far-field Amplitude Distribution along an azimuth for a Single Sector on the Exit Pupil 3.3 Azimuthal Walsh Filters on the Exit Pupil 3.4 Asymmetrical amplitude point spread function on the Far-field Plane due to azimuthal Walsh filter at the Exit Pupil Plane 3.4.1 Case 1 : Zero Order Azimuthal Walsh Filter 3.4.2 Case 2 : First Order Azimuthal Walsh Filter 3.4.3 Case 3 : Second Order Azimuthal Walsh Filter 3.4.4 Case 4 : Third Order Azimuthal Walsh Filter 3.5 Intensity Distribution on the Far-Field Plane References 4. Self-Similarity in Transverse Intensity Distributions on the Far-Field Plane of Self-Similar Azimuthal Walsh Filter 4.1 Introduction 4.2 Transverse Intensity Distributions for Zero Order Azimuthal Walsh Filter on the Far-Field Plane 4.3 Self-Similarity in Far-Field intensity distributions for Group I Self-Similar members of Azimuthal Walsh Filters 4.4 Self-Similarity in Far-Field intensity distributions for Group IIA Self-Similar members of Azimuthal Walsh Filters 4.5 Self-Similarity in Far-Field intensity distributions for Group IIB Self-Similar members of Azimuthal Walsh Filters 4.6 Self-Similarity in Far-Field intensity distributions for Group IIIA Self-Similar members of Azimuthal Walsh Filters 4.7 Rotational Self-Similarity observed in 2D Transverse intensity distributions at Far-Field Plane for adjacent orders of Azimuthal Walsh Filters References 5. Intensity Distribution In The Far-field Region of Azimuthal Walsh Filters 5.1 Introduction 5.2 Analytical Formulation of Intensity distribution on axially shifted image planes 5.2.1 Synthesis of Azimuthal Walsh Filters using Azimuthal Walsh Block functions 5.2.2 Evaluation of integral using the concept of concentric equal area zones of Azimuthal Walsh Filters 5.3 Illustrative Results with Discussion 5.3.1 Intensity distribution in the Far-Field region for Zero Order azimuthal Walsh Filters 5.3.2 Intensity distribution in the Far-Field region for First Order azimuthal Walsh Filters 5.3.3 Intensity distribution in the Far-Field region for Second Order azimuthal Walsh Filters 5.3.4 Intensity distribution in the Far-Field region for Third Order azimuthal Walsh Filters 5.3.5 Intensity distribution in the Far-Field region for Fourth Order azimuthal Walsh Filters 5.3.6 Intensity distribution in the Far-Field region for Fifth Order azimuthal Walsh Filters 5.3.7 Intensity distribution in the Far-Field region for Sixth Order azimuthal Walsh Filters 5.3.8 Intensity distribution in the Far-Field region for Seventh Order azimuthal Walsh Filters 5.4 Intensity Distributions on Transverse Planes Very Near to the Focus With Azimuthal Walsh Filters 5.4.1 Intensity Distribution in the Immediate Vicinity of the Far-Field Plane for First Order Azimuthal Walsh Filters 5.4.2 Intensity Distribution in the Immediate Vicinity of the Far-Field Plane for Second Order Azimuthal Walsh Filters 5.4.3 Intensity Distribution in the Immediate Vicinity of the Far-Field Plane for Third Order Azimuthal Walsh Filters 5.4.4 Intensity Distribution in the Immediate Vicinity of the Far-Field Plane for Fourth Order Azimuthal Walsh Filters 5.4.5 Intensity Distribution in the Immediate Vicinity of the Far-Field Plane for Fifth Order Azimuthal Walsh Filters 5.4.6 Intensity Distribution in the Immediate Vicinity of the Far-Field Plane for Sixth Order Azimuthal Walsh Filters 5.4.7 Intensity Distribution in the Immediate Vicinity of the Far-Field Plane for Seventh Order Azimuthal Walsh Filters References 6. Self -- Similarity in Transverse Intensity Distributions in the Far-Field Region of Self -- Similar Azimuthal Walsh Filters 6.1 Introduction 6.2 Self-Similarity In Transverse Intensity Distributions In The Far-Field Region For Group I Self-Similar Members Of Azimuthal Walsh Filters 6.2.1 Study of Self-Similarity on Transverse Image Planes shifted towards right or (+) ve side of Far-Field Plane 6.2.2 Study of Self-Similarity on Transverse Image Planes shifted towards left or (-) ve side of Far-Field Plane 6.3 Similarity In Transverse Intensity Distributions In The Far-Field Region For Group IIA Self-Similar Members of Azimuthal Walsh Filters 6.3.1 Study Of Self-Similarity on Transverse Image Planes Shifted Towards Right or (+) ve side of Far-Field Plane 6.3.2 Study Of Self-Similarity on Transverse Image Planes Shifted Towards left or (-) ve side of Far-Field Plane References 7. Perspectivas Futuras Del Trabajo De Investigación References ​
Summary This book explores the possibility of using azimuthal Walsh filters as an effective tool for manipulating far-field diffraction characteristics near the focal plane of rotationally symmetric imaging systems. It discusses the generation and synthesis of azimuthal Walsh filters, and explores the inherent self-similarity presented in various orders of these filters, classifying them into self-similar groups and sub-groups. Further, it demonstrates that azimuthal Walsh filters possess a unique rotational self-similarity exhibited among adjacent orders. Serving as an atlas of diffraction phenomena with pupil functions represented by azimuthal Walsh filters of different orders, this book describes how orthogonality and self-similarity of these filters could be harnessed to sculpture 2D and 3D light distributions near the focus
Bibliography Includes bibliographical references
Subject Light filters.
Three-dimensional imaging.
Imaging, Three-Dimensional
light filters.
three-dimensional.
Light filters
Three-dimensional imaging
Form Electronic book
Author Hazra, Lakshminarayan (Lakshminarayan N.)
ISBN 9789811560996
9811560994