Structured Light and its Applications - An Introduction to Phase-Structured Beams and Nanoscale Optical Forces

New possibilities have recently emerged for producing optical beams with complex and intricate structures, and for the non-contact optical manipulation of matter. This book fully describes the electromagnetic theory, optical properties, methods and applications associated with this new technology. D...

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Main Author	Andrews, David L.
Format	eBook Book
Language	English
Published	Amsterdam ; Boston Elsevier 2008 Academic Elsevier Science & Technology Academic Press
Edition	1
Subjects	Beam optics Gaussian beams Geometric & Physical Optics Nanostructures Nanostructures > Optical properties Optics & Photonics Quantum optics
Online Access	Get full text
ISBN	9780123740274 0123740274
DOI	10.1016/B978-0-12-374027-4.X0001-1

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Abstract	New possibilities have recently emerged for producing optical beams with complex and intricate structures, and for the non-contact optical manipulation of matter. This book fully describes the electromagnetic theory, optical properties, methods and applications associated with this new technology. Detailed discussions are given of unique beam characteristics, such as optical vortices and other wavefront structures, the associated phase properties and photonic aspects, along with applications ranging from cold atom manipulation to optically driven micromachines. Graduate students and established researchers in academia, national laboratories and industry will find this book an invaluable guide to the latest technologies in this rapidly developing field.
AbstractList	New possibilities have recently emerged for producing optical beams with complex and intricate structures, and for the non-contact optical manipulation of matter. This book fully describes the electromagnetic theory, optical properties, methods and applications associated with this new technology. Detailed discussions are given of unique beam characteristics, such as optical vortices and other wavefront structures, the associated phase properties and photonic aspects, along with applications ranging from cold atom manipulation to optically driven micromachines. Graduate students and established researchers in academia, national laboratories and industry will find this book an invaluable guide to the latest technologies in this rapidly developing field. A lantern into a bright future!. New possibilities have recently emerged for producing optical beams with complex and intricate structures, and for the non-contact optical manipulation of matter. This book fully describes the electromagnetic theory, optical properties, methods and applications associated with this new technology. Detailed discussions are given of unique beam characteristics, such as optical vortices and other wavefront structures, the associated phase properties and photonic aspects, along with applications ranging from cold atom manipulation to optically driven micromachines.Features include:* Comprehensive and authoritative treatments of the latest research in this area of nanophotonics, written by the leading researchers * Accounts of numerous microfluidics, nanofabrication, quantum informatics and optical manipulation applications* Coverage that fully spans the subject area, from fundamental theory and simulations to experimental methods and resultsGraduate students and established researchers in academia, national laboratories and industry will find this book an invaluable guide to the latest technologies in this rapidly developing field. Comprehensive and definitive source of the latest research in nanotechnology written by the leading people in the fieldFrom theory to applications - all is presented in detail*Editor is Chair of the SPIE Nanotechnology Technical Group and is leading the way in generation and manipulation of complex beams
Author	Andrews David L
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SubjectTerms	Beam optics Gaussian beams Geometric & Physical Optics Nanostructures Nanostructures -- Optical properties Optics & Photonics Quantum optics
TableOfContents	Title Page Preface Table of Contents 1. Introduction to Phase-Structured Electromagnetic Waves 2. Angular Momentum and Vortices in Optics 3. Singular Optics and Phase Properties 4. Nanoscale Optics: Interparticle Forces 5. Near-Field Optical Micromanipulation 6. Holographic Optical Tweezers 7. Atomic and Molecular Manipulation Using Structured Light 8. Optical Vortex Trapping and the Dynamics of Particle Rotation 9. Rotation of Particles in Optical Tweezers 10. Rheological and Viscometric Methods 11. Orbital Angular Momentum in Quantum Communication and Information 12. Optical Manipulation of Ultracold Atoms Index Color Plates Front cover -- Structured Light and Its Applications: An Introduction to Phase-Structured Beams and Nanoscale Optical Forces -- Copyright page -- Contents -- Author Affiliations -- Preface -- Chapter 1. Introduction to Phase-Structured Electromagnetic Waves -- 1.1 Introduction -- 1.2 Laguerre-Gaussian Beams and Orbital Angular Momentum -- 1.3 Bessel and Mathieu Beams -- 1.4 General Solution of the Wave Equation -- 1.5 Classical or Quantum? -- 1.6 Creating Laguerre-Gaussian Beams with Lenses and Holograms -- 1.7 Coherence: Spatial and Temporal -- 1.8 Transformations Between Basis Sets -- 1.9 Conclusion -- References -- Chapter 2. Angular Momentum and Vortices in Optics -- 2.1 Introduction -- 2.2 Classical Angular Momentum of Fields and Particles -- 2.3 Separation of Radiative Angular Momentum in L and S -- 2.4 Multipole Fields and Their Vortex Structure -- 2.5 Angular Momentum of Monochromatic Paraxial Beams -- 2.6 Quantum Description of Paraxial Beams -- 2.7 Nonmonochromatic Paraxial Beam -- 2.8 Operator Description of Classical Paraxial Beams -- 2.9 Dynamics of Optical Vortices -- 2.10 Conclusion -- References -- Chapter 3. Singular Optics and Phase Properties -- 3.1 Fundamental Phase Singularities -- 3.2 Beams with Composite Vortices -- 3.3 Noninteger Vortex Beams -- 3.4 Propagation Dynamics -- 3.5 Conclusions -- Acknowledgments -- References -- Chapter 4. Nanoscale Optics: Interparticle Forces -- 4.1 Introduction -- 4.2 QED Description of Optically Induced Pair Forces -- 4.3 Overview of Applications -- 4.4 Discussion -- Acknowledgments -- References -- Chapter 5. Near-Field Optical Micromanipulation -- 5.1 Introduction -- 5.2 Theoretical Considerations for Near-Field Trapping -- 5.3 Experimental Guiding and Trapping of Particles in the Near Field -- 5.4 Emergent Themes in the Near Field -- 5.5 Conclusions -- Acknowledgments -- References Chapter 6. Holographic Optical Tweezers -- 6.1 Background -- 6.2 Example Rationale for Constructing Extended Arrays of Traps -- 6.3 Experimental Details -- 6.4 Algorithms for Holographic Optical Traps -- 6.5 The Future of Holographic Optical Tweezers -- Acknowledgments -- References -- Chapter 7. Atomic and Molecular Manipulation Using Structured Light -- 7.1 Introduction -- 7.2 A Brief Overview -- 7.3 Transfer of OAM to Atoms and Molecules -- 7.4 Doppler Forces and Torques -- 7.5 The Doppler Shift -- 7.6 Rotational Effects on Liquid Crystals -- 7.7 Comments and Conclusions -- Acknowledgments -- References -- Chapter 8. Optical Vortex Trapping and the Dynamics of Particle Rotation -- 8.1 Introduction -- 8.2 Computational Electromagnetic Modeling of Optical Trapping -- 8.3 Electromagnetic Angular Momentum -- 8.4 Electromagnetic Angular Momentum of Paraxial and Nonparaxial Optical Vortices -- 8.5 Nonparaxial Optical Vortices -- 8.6 Trapping in Vortex Beams -- 8.7 Symmetry and Optical Torque -- 8.8 Zero Angular Momentum Optical Vortices -- 8.9 Gaussian ``Longitudinal'' Optical Vortex -- 8.10 Conclusion -- References -- Chapter 9. Rotation of Particles in Optical Tweezers -- 9.1 Introduction -- 9.2 Using Intensity Shaped Beams to Orient and Rotate Trapped Objects -- 9.3 Angular Momentum Transfer to Particles Held in Optical Tweezers -- 9.4 Out of Plane Rotation in Optical Tweezers -- 9.5 Rotation of Helically Shaped Particles in Optical Tweezers -- 9.6 Applications of Rotational Control in Optical Tweezers -- References -- Chapter 10. Rheological and Viscometric Methods -- 10.1 Introduction -- 10.2 Optical Torque Measurement -- 10.3 A Rotating Optical Tweezers-Based Microviscometer -- 10.4 Applications -- Conclusion -- References -- Chapter 11. Orbital Angular Momentum in Quantum Communication and Information 11.1 Sending and Receiving Quantum Information -- 11.2 Exploring the OAM State Space -- 11.3 Quantum Protocols -- 11.4 Conclusions and Outlook -- Acknowledgments -- References -- Chapter 12. Optical Manipulation of Ultracold Atoms -- 12.1 Background -- 12.2 Optical Forces and Atom Traps -- 12.3 The Quantum Gas: Bose-Einstein Condensates -- 12.4 Light-Induced Gauge Potentials for Cold Atoms -- 12.5 Light-Induced Gauge Potentials for the Lambda Scheme -- 12.6 Light-Induced Gauge Fields for a Tripod Scheme -- 12.7 Ultra-Relativistic Behavior of Cold Atoms in Light-Induced Gauge Potentials -- 12.8 Final Remarks -- References -- Index -- Color Insert
Title	Structured Light and its Applications - An Introduction to Phase-Structured Beams and Nanoscale Optical Forces
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