Novel Insights into Orbital Angular Momentum Beams: From Fundamentals, Devices to Applications

Novel Insights into Orbital Angular Momentum Beams: From Fundamentals, Devices to Applications

It is well-known by now that the angular momentum carried by elementary particles can be categorized as spin angular momentum (SAM) and orbital angular momentum (OAM). In the early 1900s, Poynting recognized that a particle, such as a photon, can carry SAM, which has only two possible states, i.e.,...

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Bibliographic Details
Main Author: Ren, Yongxiong (auth)
Other Authors: Yue, Yang (auth), Huang, Hao (auth), Pan, Zhongqi (auth), Willner, Alan E. (auth)
Format: Electronic Book Chapter
Language:English
Published: MDPI - Multidisciplinary Digital Publishing Institute 2019
Subjects:
n/a
radio frequency
multi-input multi-output
photonic lantern
uniform circular array
turbulence mitigation
state of polarization
long period fiber grating
MIMO
frequency-domain
receiver
28 GHz
metasurfaces
light-matter interactions
dielectric lens
free-space optical communications
helicity
orbital angular momentum multiplexing
OAM
orbital angular momentum
subwavelength digital gratings
nanofabrication
time-gated frequency-shift interpolation
silicon metasurfaces
phase mode
reactive ion etching
dual symmetry
bi-isotropic media
mode selective coupler
twisted waves
photonics lantern
pseudo-Doppler
chirality
OAM-MIMO
Poincaré sphere
electron beam lithography
Pancharatnam-Berry optical elements
polarization division multiplexing
mode division multiplexing
nonlinear optics
interpolation
microstructure optical fiber
tunable OAM
structured light
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Summary:It is well-known by now that the angular momentum carried by elementary particles can be categorized as spin angular momentum (SAM) and orbital angular momentum (OAM). In the early 1900s, Poynting recognized that a particle, such as a photon, can carry SAM, which has only two possible states, i.e., clockwise and anticlockwise circular polarization states. However, only fairly recently, in 1992, Allen et al. discovered that photons with helical phase fronts can carry OAM, which has infinite orthogonal states. In the past two decades, the OAM-carrying beam, due to its unique features, has gained increasing interest from many different research communities, including physics, chemistry, and engineering. Its twisted phase front and intensity distribution have enabled a variety of applications, such as micromanipulation, laser beam machining, nonlinear matter interactions, imaging, sensing, quantum cryptography and classical communications. This book aims to explore novel insights of OAM beams. It focuses on state-of-the-art advances in fundamental theories, devices and applications, as well as future perspectives of OAM beams.
Physical Description:1 electronic resource (164 p.)
ISBN:books978-3-03921-224-8
9783039212231
9783039212248
Access:Open Access

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