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Plasmonics and super resolution imaging

✍ Scribed by Zhaowei Liu

Publisher
Pan Stanford Publishing
Year
2017
Tongue
English
Leaves
497
Edition
1
Category
Library
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✦ Synopsis

Plasmonics is an emerging field mainly developed within the past two decades. Due to its unique capabilities to manipulate light at deep subwavelength scales, plasmonics has been commonly treated as the most important part of nanophotonics. Plasmonic-assisted optical microscopy techniques, especially super-resolution microscopy, have shown tremendous potential and attracted much attention.

This book aims to collect cutting-edge studies in various optical imaging technologies with advanced performances that are enabled or enhanced by plasmonics. The basic working principles, development details, and potential future direction and perspectives are discussed. Edited by Zhaowei Liu, a prominent researcher in the field of super-resolution microscopy, this book will be an excellent reference for anyone in the field of nanophotonics, plasmonics, and optical microscopy.

✦ Table of Contents

Content: Cover
Half Title
Title Page
Copyright Page
Table of Contents
Preface
1: The Far-Field Superlens
1.1 Introduction
1.1.1 Background
1.1.2 Negative Refraction and the Perfect Lens
1.1.3 The Near-Field Superlens
1.2 One-Dimensional Far-Field Superlens Theory
1.3 One-Dimensional Experimental Demonstration
1.3.1 Verifying the Transfer Function
1.3.2 Building a Far-Field Superlens
1.3.3 Experimental Imaging
1.4 Tuning the Operational Wavelength
1.5 The Two-Dimensional Far-Field Superlens
1.6 Summary 2: Beating the Diffraction Limit with Positive Refraction: The Resonant Metalens Approach2.1 Introduction
2.2 Principles of the Resonant Metalens
2.2.1 Locally Resonant Metamaterials
2.2.2 Coding the Subwavelength Information of a Source into the Complex Spectrum of a Polychromatic Wave Field
2.2.3 Efficient Conversion of Evanescent Waves to Propagating Ones, Thanks to Resonant Amplification
2.2.4 Applications and Limits of a Resonant Metalens
2.3 Experimental Demonstrations with Microwaves and Sound 2.3.1 Original Demonstration: A Wire Medium-Based Resonant Metalens for Microwave Applications2.3.2 Moving from Microwaves to Acoustics: A Soda Can-Based Resonant Metalens
2.4 Optical Resonant Metalens with Plasmonic Nanoparticles
2.4.1 Specificity of Light Manipulation
2.4.2 Designing the Plasmonic Resonant Metalens
2.4.3 Far-Field Subwavelength Focusing of Light Using Time Reversal
2.4.4 Polychromatic Interferometric Far-Field Subwavelength Imaging
2.5 Conclusion
3: Ultrathin Metalens and Three-Dimensional Optical Holography Using Metasurfaces
3.1 Introduction 3.2 Ultrathin Metalens3.2.1 Background
3.2.2 Design Theory and Simulation
3.2.2.1 Required phase profile
3.2.2.2 Simulation method
3.2.2.3 Dual-polarity metalens
3.3 3D Optical Holography Using Metasurfaces
3.3.1 Background
3.3.2 Design and Simulation
3.3.2.1 Computer-generated hologram design
3.3.2.2 Design of a metasurface hologram
3.3.3 Characterization of a Metasurface Hologram
3.3.4 Discussion
3.4 Conclusion
4: Plasmonic Structured Illumination Microscopy
4.1 Introduction
4.1.1 Optical Microscopy and Resolution Limit 4.1.2 Traditional Methods of Improving the Resolving Power4.2 Super-Resolution Fluorescence Microscopy and Surface Plasmons
4.2.1 Super-Resolution Fluorescence Microscopy Techniques
4.2.2 Structured Illumination Microscopy
4.2.3 Background of Surface Plasmons
4.3 Principles of Plasmonic Structured Illumination Microscopy
4.3.1 Surface Plasmon Interference Formation and Manipulation
4.3.2 PSIM Image Reconstruction Method
4.4 PSIM Demonstration
4.4.1 Numerical Demonstration of PSIM
4.4.2 Experimental Demonstration of PSIM
4.4.3 Discussion

✦ Subjects

High resolution imaging.;Nanophotonics.;Imaging Systems.;TECHNOLOGY & ENGINEERING / Mechanical

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