Reprint
Novel Specialty Optical Fibers and Applications
Edited by
August 2022
256 pages
- ISBN978-3-0365-5126-5 (Hardback)
- ISBN978-3-0365-5125-8 (PDF)
This is a Reprint of the Special Issue Novel Specialty Optical Fibers and Applications that was published in
Engineering
Physical Sciences
Summary
Novel Specialty Optical Fibers and Applications focuses on the latest developments in specialty fiber technology and its applications. The aim of this reprint is to provide an overview of specialty optical fibers in terms of their technological developments and applications. Contributions include:1. Specialty fibers composed of special materials for new functionalities and applications in new spectral windows.2. Hollow-core fiber-based applications.3. Functionalized fibers.4. Structurally engineered fibers.5. Specialty fibers for distributed fiber sensors.6. Specialty fibers for communications.
Format
- Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
optical amplifiers; doped fiber amplifiers; near-infrared; molecular gas spectroscopy; photothermal spectroscopy; heterodyne detection; specialty fiber; anti-resonant effect; hollow structure; sensing applications; orbital angular momentum; optical fiber; fiber mode crosstalk; vortex mode generator; fiber optics; plasmonic gratings; nanodot; light collection; hollow-core fibers; anti-resonant hollow-core fibers; tapered fibers; fiber gas lasers; fiber end cap; SiO2-Au-TiO2 heterostructure; long-range surface plasmon resonance; microstructured optical fiber; fiber sensor; photonic crystal fibers; hollow-core fibers; fiber lasers; stimulated Raman scattering; gas Raman lasers; specialty fibers; Brillouin optical time domain analysis; BOTDA; distributed fiber sensor; photonic crystal fiber; strain and temperature sensing; liquid crystal; dual-core photonic crystal fiber; polarization beam splitter; extinction ratio; polarization filter; surface plasmon resonance; photonic crystal fiber; gold-coated; crosstalk; mid-infrared (mid-IR); chalcogenide glasses (ChGs); optical microfibers (MFs); supercontinuum (SC); molecular sensing; Raman spectroscopy; capillary-based hollow core fibers; hollow core photonic crystal fiber; detection; specialty fibers; distributed acoustic sensing; DAS; distributed fiber sensor; scattering enhancement fiber; fiber-optic sensors; few-mode fiber; microfiber; Mach–Zehnder interferometer; critical wavelength; multicore fiber; fiber Bragg grating; long period grating; fiber grating sensors; n/a