Reprint

Optical Fiber Interferometric Sensors: New Production Methodologies and Novel Applications

Edited by
January 2022
216 pages
  • ISBN978-3-0365-2249-4 (Hardback)
  • ISBN978-3-0365-2250-0 (PDF)

This book is a reprint of the Special Issue Optical Fiber Interferometric Sensors: New Production Methodologies and Novel Applications that was published in

Engineering
Physical Sciences
Summary

The contributions presented in this book series portray the advances of the research in the field of interferometric photonic technology and its novel applications. The wide scope explored by the range of different contributions intends to provide a synopsis of the current research trends and the state of the art in this field, covering recent technological improvements, new production methodologies and emerging applications, for researchers coming from different fields of science and industry.

The manuscripts published in the Special issue, and re-printed in this book series, report on topics that range from interferometric sensors for thickness and dynamic displacement measurement, up to pulse wave and spirometry applications.

Format
  • Hardback
License
© by the authors
Keywords
fiber-optic temperature sensor; chloroform fiber; Sagnac interferometer; optical microfiber coupler; interferometer; salinity sensing; optic fiber sensor; optical fiber sensor; cleaved fiber; Vernier effect; optical interferometer; fiber optics sensors; dual-core fiber; interferometer; temperature sensing; optical coherence tomography; low-coherence interferometry; large-scale imaging; optical fiber sensor; biomedical sensor; optical coherence tomography; intermodal interferometer; singlemode-multimode-singlemode; Fabry–Perot interferometer; fiber Bragg grating; pulse wave; spectral interferometry; seismic measurement; dynamic impact; dynamic response; interferometric sensor; pneumatic sensor; low-coherence interferometry; thickness measurement; optical coherence tomography; plastics measurement; moiré effects; diffraction theory; lenses; mirrors; digital image processing; large-field; speckle interferometer; MEMS; displacement measurement; miniaturized optical sensors; Fabry–Pérot interferometers; tuning range; MEMS; efficiency; nanoimprint; integration in fiber optics; multiplex advantage; photonic crystals; plasmonics; Fabry–Perot interferometer; optical fiber sensor; flow sensor; pulmonary function assessment; spirometry; interferometric sensors; optical fiber; photonics