Enhanced Optical Fiber Lasers and Optical Fiber Sensors Assisted by Micro-drilled Optical Fibers

Recently, carbon allotropes have received tremendous research interest and paved a new avenue for optical fiber sensing technology. Carbon allotropes exhibit unique sensing properties such as large surface to volume ratios, biocompatibility, and they can serve as molecule enrichers. Meanwhile, optical fibers possess a high degree of surface modification versatility that enables the incorporation of carbon allotropes as the functional coating for a wide range of detection tasks. Moreover, the combination of carbon allotropes and optical fibers also yields high sensitivity and specificity to monitor target molecules in the vicinity of the nanocoating surface. In this review, the development of carbon allotropes-based optical fiber sensors is studied. The first section provides an overview of four different types of carbon allotropes, including carbon nanotubes, carbon dots, graphene, and nanodiamonds. The second section discusses the synthesis approaches used to prepare these carbon allotropes, followed by some deposition techniques to functionalize the surface of the optical fiber, and the associated sensing mechanisms. Numerous applications that have benefitted from carbon allotrope-based optical fiber sensors such as temperature, strain, volatile organic compounds and biosensing applications are reviewed and summarized. Finally, a concluding section highlighting the technological deficiencies, challenges, and suggestions to overcome them is presented.

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Optical Fiber Sensors by Direct Laser Processing: A Review

Sensors ◽

10.3390/s20236971 ◽

2020 ◽

Vol 20 (23) ◽

pp. 6971

Author(s):

David Pallarés-Aldeiturriaga ◽

Pablo Roldán-Varona ◽

Luis Rodríguez-Cobo ◽

José Miguel López-Higuera

Keyword(s):

Femtosecond Laser ◽

Optical Fiber ◽

Optical Fibers ◽

Laser Processing ◽

Optical Fiber Sensors ◽

Femtosecond Laser Irradiation ◽

Fiber Sensors ◽

Continuous Increase ◽

Rayleigh Backscattering ◽

Direct Laser

The consolidation of laser micro/nano processing technologies has led to a continuous increase in the complexity of optical fiber sensors. This new avenue offers novel possibilities for advanced sensing in a wide set of application sectors and, especially in the industrial and medical fields. In this review, the most important transducing structures carried out by laser processing in optical fiber are shown. The work covers different types of fiber Bragg gratings with an emphasis in the direct-write technique and their most interesting inscription configurations. Along with gratings, cladding waveguide structures in optical fibers have reached notable importance in the development of new optical fiber transducers. That is why a detailed study is made of the different laser inscription configurations that can be adopted, as well as their current applications. Microcavities manufactured in optical fibers can be used as both optical transducer and hybrid structure to reach advanced soft-matter optical sensing approaches based on optofluidic concepts. These in-fiber cavities manufactured by femtosecond laser irradiation followed by chemical etching are promising tools for biophotonic devices. Finally, the enhanced Rayleigh backscattering fibers by femtosecond laser dots inscription are also discussed, as a consequence of the new sensing possibilities they enable.

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Truly Distributed Optical Fiber Sensors for Structural Health Monitoring: From the Telecommunication Optical Fiber Drawling Tower to Water Leakage Detection in Dikes and Concrete Structure Strain Monitoring

Advances in Civil Engineering ◽

10.1155/2010/930796 ◽

2010 ◽

Vol 2010 ◽

pp. 1-13 ◽

Cited By ~ 22

Author(s):

Jean-Marie Henault ◽

Gautier Moreau ◽

Sylvain Blairon ◽

Jean Salin ◽

Jean-Robert Courivaud ◽

...

Keyword(s):

Optical Fiber ◽

Optical Fibers ◽

Brillouin Scattering ◽

Optical Fiber Sensors ◽

Leakage Detection ◽

Strain Sensing ◽

Water Leakage ◽

Fiber Sensors ◽

Practical Applications ◽

Water Leakage Detection

Although optical fiber sensors have been developed for 30 years, there is a gap between lab experiments and field applications. This article focuses on specific methods developed to evaluate the whole sensing chain, with an emphasis on (i) commercially-available optoelectronic instruments and (ii) sensing cable. A number of additional considerations for a successful pairing of these two must be taken into account for successful field applications. These considerations are further developed within this article and illustrated with practical applications of water leakage detection in dikes and concrete structures monitoring, making use of distributed temperature and strain sensing based on Rayleigh, Raman, and Brillouin scattering in optical fibers. They include an adequate choice of working wavelengths, dedicated localization processes, choices of connector type, and further include a useful selection of traditional reference sensors to be installed nearby the optical fiber sensors, as well as temperature compensation in case of strain sensing.

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Application Study on a Detecting Tube for Deformation Settlement Monitoring for Earth Dike Based on Distributed Optical Fiber Sensors

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.103.327 ◽

2011 ◽

Vol 103 ◽

pp. 327-331

Author(s):

Ping Yu Zhu ◽

Hua Lei ◽

Yuan Bao Leng

Keyword(s):

Optical Fiber ◽

Optical Fibers ◽

Fem Analysis ◽

Optical Fiber Sensors ◽

Earth Dam ◽

The Finite Element Method ◽

Fiber Sensors ◽

Application Study ◽

Distributed Optical Fiber ◽

Settlement Monitoring

A monitoring structure has been designed to detect settlement using a tube with distributed optical fiber sensors inside. The strain of the optical fibers inside the detecting tube was calculated to estimate the settlement degree of earth dam. The Finite Element Method (FEM) analysis of the tube interaction with the earth dam by ANSYS software is applied to find the best installation location of the detecting tube.

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Technology of suspended core microstructured optical fibers for evanesced wave and plasmon resonance optical fiber sensors

10.1117/12.783327 ◽

2008 ◽

Cited By ~ 5

Author(s):

Jan Wojcik ◽

Pawel Mergo ◽

Mariusz Makara ◽

Krzysztof Poturaj ◽

Lidia Czyżewska ◽

...

Keyword(s):

Optical Fiber ◽

Optical Fibers ◽

Plasmon Resonance ◽

Optical Fiber Sensors ◽

Fiber Sensors ◽

Microstructured Optical Fibers

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Optical-Fiber Sensors: An Overview

MRS Bulletin ◽

10.1557/mrs2002.121 ◽

2002 ◽

Vol 27 (5) ◽

pp. 365-369 ◽

Cited By ~ 5

Author(s):

D. J. Webb

Keyword(s):

Optical Fiber ◽

Optical Fibers ◽

Material Characterization ◽

Chemical Sensing ◽

Optical Fiber Sensors ◽

Bragg Grating ◽

Fiber Sensors ◽

Fiber Sensing ◽

Recent Developments ◽

Optical Fiber Sensing

AbstractThis article provides an overview of the field of optical-fiber sensing, including a brief introduction to the properties of optical fibers that make them suitable for material characterization and monitoring. Some of the recent developments in the field are described, with an emphasis on Bragg grating sensors, multiplexed systems, and chemical sensing, as well as the new field of microstructured fiber.

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Optical Fibers on Medical Instrumentation

International Journal of Biomedical and Clinical Engineering ◽

10.4018/ijbce.2013070103 ◽

2013 ◽

Vol 2 (2) ◽

pp. 23-36

Author(s):

J. P. Carmo ◽

J. E. Ribeiro

Keyword(s):

Optical Fiber ◽

Optical Fibers ◽

State Of The Art ◽

Fiber Bragg Gratings ◽

Bragg Gratings ◽

Optical Fiber Sensors ◽

The State ◽

Medical Instrumentation ◽

Fiber Sensors

This paper provides a revision with the state-of-the-art related to the use of optical fiber sensors on medical instrumentation. Two types of optical fiber sensors are the focus of review: conventional optical fibers for communications and fiber Bragg gratings (FBGs).

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Optical-Fiber Sensors

MRS Bulletin ◽

10.1557/mrs2002.120 ◽

2002 ◽

Vol 27 (5) ◽

pp. 359-364 ◽

Cited By ~ 15

Author(s):

G. F. Fernando ◽

D. J. Webb ◽

Pierre Ferdinand

Keyword(s):

Optical Fiber ◽

Optical Fibers ◽

Chemical Species ◽

Optical Fiber Sensors ◽

Medical Applications ◽

General Introduction ◽

Fiber Sensors ◽

Advantages And Disadvantages ◽

Introductory Article ◽

Pressure Chemical

AbstractThe primary aim of this issue of MRS Bulletin is to present an overview of the deployment of optical-fiber sensors in a selected range of applications. The topics covered include a general introduction to optical fibers; a review of the sensing mechanisms that are available to monitor strain, temperature, pressure, chemical species, damage, and acoustic emission; and the use of optical-fiber sensors in medical applications. This introductory article presents a brief discussion of the advantages and disadvantages of optical-fiber sensors.

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Plastics and Polymers for Optical Transmission

MRS Proceedings ◽

10.1557/proc-88-3 ◽

1986 ◽

Vol 88 ◽

Cited By ~ 2

Author(s):

L. L. Blyler ◽

K. A. Cogan ◽

J. A. Ferrara

Keyword(s):

Optical Fiber ◽

Optical Fibers ◽

Optical Transmission ◽

Optical Fiber Sensors ◽

Optical Polymers ◽

Optical Components ◽

Fiber Sensors ◽

Non Linear ◽

Plastic Optical Fibers ◽

Linear Optical

ABSTRACTThe current stktus of worldwide research in the use of polymers as active lightwave transmission media is examined. Applications include plastic optical fibers, plastic optical components, polymeric optical fiber sensors and non-linear optical polymers.

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