Orbital Angular Momentum States of Light (Second Edition) (eBook, ePUB) - Khare, Kedar; Lochab, Priyanka; Senthilkumaran, Paramasivam
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  • Format: ePub

This book provides an in-depth introduction to modelling of long-range propagation of orbital angular momentum (OAM) modes as well as more general structured light beams through atmospheric turbulence. Starting with angular spectrum method for diffraction and description of structured light states, the book discusses the technical details related to wave propagation through atmospheric turbulence. The review of historical as well as more recent ideas in this topical area, along with computer simulation codes, makes this book a useful reference to researchers and optical engineers interested in…mehr

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Produktbeschreibung
This book provides an in-depth introduction to modelling of long-range propagation of orbital angular momentum (OAM) modes as well as more general structured light beams through atmospheric turbulence. Starting with angular spectrum method for diffraction and description of structured light states, the book discusses the technical details related to wave propagation through atmospheric turbulence. The review of historical as well as more recent ideas in this topical area, along with computer simulation codes, makes this book a useful reference to researchers and optical engineers interested in developing and testing of free-space applications of OAM states of light.

Key Features:

  • Includes modelling of long-range propagation using the angular spectrum approach.
  • Presents basic description of turbulence propagation using single or multi-phase screen models.
  • Provides information on advanced topics such as propagation polarization of singularities through turbulence and texture properties of speckle with structured light.
  • Provides discussion on the spiral phase quadrature transform and its application for robust beam engineering.
  • Includes accompanying open-source software code snippets for modelling the propagation of scalar and vector beams through turbulence.

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Autorenporträt
Kedar Khare is currently a Professor in the Optics & Photonics Centre and Department of Physics, Indian Institute of Technology Delhi, India. His research interests include problems in computational optical imaging and structured light. In recent years he has been actively engaged in pursuing research work on quantitative phase imaging, Fourier phase retrieval, computational microscopy, diagnostic imaging, cryo-EM imaging and structured light propagation in turbulence.

Priyanka Lochab is currently an Assistant Professor at the Indira Gandhi Delhi Technical University for Women. Her research career in optics began in 2013 when she joined IIT Delhi as a graduate student. Her major research interests are singular optics, beam propagation through random media and computational imaging.

Paramasivam Senthilkumaranis currently working as a Professor in the Optics & Photonics Centre and Department of Physics, Indian Institute of Technology Delhi, India. His research interests include areas such as optical beam shaping, optical phase singularities, Berry and Pancharatnam topological phases, fiber optics, holography, non-destructive testing techniques, shear interferometry, Talbot interferometry, speckle metrology and non-linear optics.