Optical vortices :fundamentals and applications /

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Optical vortices :fundamentals and applications /

Yang, Yuanjie, - Personal Name; Institute of Physics (Great Britain), - Personal Name; Ren, Yu-Xuan, - Personal Name; Rosales-Guzm?an, Carmelo, - Personal Name;

"Version: 20241101"--Title page verso.Includes bibliographical references.1. Introduction -- 1.1. Vortices in nature -- 1.2. Historical review of optical vortices -- 1.3. Orbital angular momentum of vortex beams2. Generation of optical vortex beams -- 2.1. Typical vortex beams -- 2.2. Methods for vortex generation3. Measuring OAM of vortex beams -- 3.1. Interference or diffraction method -- 3.2. Geometric coordinate transformation method -- 3.3. Deep learning method -- 3.4. Surface plasmon polaritons method4. Partially coherent vortex beams -- 4.1. Orbital angular momentum of partially coherent beams -- 4.2. Singularities in partially coherent vortex beams -- 4.3. Measuring the topological charge of partially coherent vortex beams -- 4.4. Applications of partially coherent vortex beams5. Vector vortex beams -- 5.1. Basic concepts -- 5.2. Definition of vector vortex beams -- 5.3. Generation of vector vortex beams -- 5.4. Characterization of vector beams6. Spatio-temporal vortex and applications -- 6.1. Concept of the spatiotemporally structured light -- 6.2. Temporal analog of lens -- 6.3. Spatiotemporal optical vortex -- 6.4. Generation of spatiotemporal optical vortex -- 6.5. Spatiotemporal solitons and soliton molecules -- 6.6. Spin-orbit interaction of spatiotemporal optical vortex -- 6.7. Summary7. Plasmonic vortices -- 7.1. Vortices in surface plasmon polaritons : an introduction -- 7.2. Generation of plasmonic vortices -- 7.3. Applications of SPP vortices and beyond -- 7.4. Conclusion8. Tailoring structured light with spatial light modulators -- 8.1. The liquid crystal spatial light modulators -- 8.2. Tailoring light with spatial light modulators9. Tailoring optical vortex with digital micromirror device -- 9.1. Introduction of amplitude DMD -- 9.2. Algorithms to generate amplitude hologram for DMD -- 9.3. Tailoring super-Gaussian beam with DMD -- 9.4. Tailoring perfect vortex beam with DMD -- 9.5. Tailoring the vortex Hermite-Gaussian beam -- 9.6. Tailoring vortex Ince-Gaussian beam with DMD -- 9.7. Tailoring the vortex Airy beam with DMD -- 9.8. Summary10. Structured light for optical communication -- 10.1. Classical communications with structured light -- 10.2. Secure quantum communications with structured light11. Optical trapping with optical vortices -- 11.1. Principle of optical tweezers -- 11.2. Optical trapping with nondiffracting beams -- 11.3. Optical trapping with vortex beams -- 11.4. Holographic optical tweezers -- 11.5. Optical manipulation with metallic nanoparticles -- 11.6. Optical trapping with structured light -- 11.7. Mind-controlled optical rotation -- 11.8. Conclusion12. Biomedical imaging with optical vortex -- 12.1. Grant challenges in biomedical imaging -- 12.2. Volumetric microscopy with structured light -- 12.3. Reolustion improvement in nonlinear microscope -- 12.4. Axial resolution in volumetric microscopy -- 12.5. Structured light to resolve the axial information -- 12.6. Improve the signal-to-background ratio -- 12.7. Conclusion13. Metrology with structured light -- 13.1. Laser remote sensing -- 13.2. Other techniques14. Past, present, and future -- 14.1. Overview of the past researches -- 14.2. Present researches on the optical vortex -- 14.3. Future perspectives.Full-text restricted to subscribers or individual document purchasers.This book focuses on the latest advances in the optical vortices field, from fundamentals to applications. The goal of this book is to present the optical vortices to a broad audience. The book begins with the basic knowledge in the field of optical vortices, including the characteristics of optical vortices, generation methods, and orbital angular momentum detection methods. Then, several important types of optical vortices are introduced, including partially coherent vortex beams, vector vortex beams and spatiotemporal optical vortices. Lastly, the applications of optical vortices are introduced systematically, including in optical trapping, optical communications, imaging and metrology. Part of IOP Series in Advances in Optics, Photonics and Optoelectronics.Scientists, researchers, and undergraduate students working in the field of structured light, but also to researchers in related areas wishing to learn about structured light for a specific application.Also available in print.Mode of access: World Wide Web.System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.Yuanjie Yang is a professor and vice dean in School of Physics, University of Electronic Science and Technology of China. He got his PhD degree from Sichuan University (China) in 2008, and after that he had ever carried out postdoctoral research at University of St Andrews (UK), University of York (UK) and National University of Singapore. His research interest mainly focuses on optical vortex beams, orbital angular momentum, plasmonic vortices and optical trapping, etc. Yu-Xuan Ren is a research associate professor at Fudan University. His research interests include fluorescence microscopic imaging, optical manipulation, nonlinear optics, and wavefront shaping. He has published over 70 research papers with total citation of over 2500 from google scholar. Carmelo Rosales-Guzm?an is a principal investigator at Centro de Investigaciones en Optica (CIO, Mexico) since 2020. From 2018 to 2020 he was a professor at the University of Science and Technology of Harbin (China). From 2015 to 2018 he was a postdoctoral research fellow at the structured light laboratory of the University of Witwatersrand (South Africa). Dr Rosales obtained his Ph.D. degree in 2015 from ICFO-The institute of photonics sciences (Barcelona, Spain). He is currently on the editorial panels of Journal of Optics Frontiers in Physics and APL photonics. His main research interest involves the generation, characterization and applications of structured light. He has co-authored over 90 research articles, which include several reviews and the book Structured Light with Spatial Light Modulators. His significant contributions to the field of structured light, along with the promotion of science in developing countries granted him the 2023 SPIE Early Career Achievement Award.Title from PDF title page (viewed on December 13, 2024).

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Series Title: -
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Publisher: : .,
Collation: 1 online resource (various pagings) :illustrations (some color).
Language: English
ISBN/ISSN: 9780750358446
Classification: 621.36/60151539
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Subject(s): TECHNOLOGY & ENGINEERING / Optics.
Optical vortices.
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Statement of Responsibility: Yuanjie Yang, Yu-Xuan Ren, Carmelo Rosales-Guzm?an.

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