TY - BOOK ID - 135723136 TI - Fiber Optic Sensors and Fiber Lasers PY - 2021 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - optical microfiber coupler KW - graphene KW - fiber laser KW - filter KW - wavelength-swept laser KW - cholesteric liquid crystal KW - bandpass filter KW - spectral reflectance KW - airway management KW - endotracheal tube placement KW - tissue detection KW - tracheal tissue KW - esophageal tissue KW - intubation KW - endotracheal tube misplacement KW - weak fiber Bragg gratings KW - distributed fiber optic sensor KW - phi-OTDR KW - nitrate sensing KW - optical fibre KW - PEDOT KW - conducting polymer KW - 2H–TaSe2 nano-materials KW - metallic band structure KW - saturable absorber KW - dual-wavelength KW - red palm weevil KW - fiber optic acoustic sensing KW - machine learning KW - few-mode fiber KW - fiber optic sensors KW - Brillouin scattering KW - distributed measurement KW - fiber lasers KW - semiconductor optical amplifier KW - dynamic measurement KW - dynamic optical fiber sensors KW - ultrafast fiber laser KW - low-dimensional materials KW - optically/electrically controlled fiber lasers UR - https://www.unicat.be/uniCat?func=search&query=sysid:135723136 AB - The optical fiber industry is emerging from the market for selling simple accessories using optical fiber to the new optical-IT convergence sensor market combined with high value-added smart industries such as the bio industry. Among them, fiber optic sensors and fiber lasers are growing faster and more accurately by utilizing fiber optics in various fields such as shipbuilding, construction, energy, military, railway, security, and medical.This Special Issue aims to present novel and innovative applications of sensors and devices based on fiber optic sensors and fiber lasers, and covers a wide range of applications of optical sensors. In this Special Issue, original research articles, as well as reviews, have been published. ER -