Whispering gallery mode-based micro-optical sensors for structural health monitoring of composite materials

Development of smart materials with inherent damage sensing capabilities is of great interest to aerospace and other structural applications. Most of the existing smart materials are based on using embedded sensors for structural health monitoring. However, embedded sensors can lead to undesirable e...

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Veröffentlicht in:	Journal of materials science 2009-03, Vol.44 (6), p.1560-1571
Hauptverfasser:	Nguyen, Nguyen Quang, Gupta, Nikhil, Ioppolo, Tindaro, Ötügen, M. Volkan
Format:	Artikel
Sprache:	eng
Schlagworte:	Characterization and Evaluation of Materials Chemistry and Materials Science Classical Mechanics Composite materials Crystallography and Scattering Methods Detection Embedded sensors Feasibility studies Materials Science Materials selection Morphology Optical measuring instruments Particulate composites Polymer Sciences Refractivity Semiconductor lasers Sensors Smart materials Solid Mechanics Stress concentration Structural health monitoring Syntactic and Composite Foams Tunable lasers Whispering gallery modes
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container_title	Journal of materials science
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creator	Nguyen, Nguyen Quang Gupta, Nikhil Ioppolo, Tindaro Ötügen, M. Volkan
description	Development of smart materials with inherent damage sensing capabilities is of great interest to aerospace and other structural applications. Most of the existing smart materials are based on using embedded sensors for structural health monitoring. However, embedded sensors can lead to undesirable effects such as stress concentration and can cause premature failure. Therefore, using microstructural components for additional function of sensing of the structural health is the only option. Such possibilities exist only in selected few materials. The present study investigates the feasibility of developing fiber- and particle-reinforced composites into smart materials. The sensing approach considered is based on the morphology-dependent shifts of optical modes, referred to as the whispering gallery modes (WGMs), of spherical dielectric micro-particles. The WGMs are excited by coupling light from a tunable diode laser using single mode fibers. The WGMs of the micro-particles can be observed as sharp dips in the transmission spectrum through the fiber and are highly sensitive to the morphology of the particle. A minute change in the size, shape, or refractive index causes a shift of the optical modes, which can be interpreted quantitatively in terms of the parameter that caused the change. A theoretical framework is developed for such sensor systems that provides quantitative relations between the stress applied on the micro-particles and corresponding shift in WGMs. These relations are validated against the available experimental results.
doi_str_mv	10.1007/s10853-008-3163-3
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Volkan</creatorcontrib><title>Whispering gallery mode-based micro-optical sensors for structural health monitoring of composite materials</title><title>Journal of materials science</title><addtitle>J Mater Sci</addtitle><description>Development of smart materials with inherent damage sensing capabilities is of great interest to aerospace and other structural applications. Most of the existing smart materials are based on using embedded sensors for structural health monitoring. However, embedded sensors can lead to undesirable effects such as stress concentration and can cause premature failure. Therefore, using microstructural components for additional function of sensing of the structural health is the only option. Such possibilities exist only in selected few materials. The present study investigates the feasibility of developing fiber- and particle-reinforced composites into smart materials. The sensing approach considered is based on the morphology-dependent shifts of optical modes, referred to as the whispering gallery modes (WGMs), of spherical dielectric micro-particles. The WGMs are excited by coupling light from a tunable diode laser using single mode fibers. The WGMs of the micro-particles can be observed as sharp dips in the transmission spectrum through the fiber and are highly sensitive to the morphology of the particle. A minute change in the size, shape, or refractive index causes a shift of the optical modes, which can be interpreted quantitatively in terms of the parameter that caused the change. 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subjects	Characterization and Evaluation of Materials Chemistry and Materials Science Classical Mechanics Composite materials Crystallography and Scattering Methods Detection Embedded sensors Feasibility studies Materials Science Materials selection Morphology Optical measuring instruments Particulate composites Polymer Sciences Refractivity Semiconductor lasers Sensors Smart materials Solid Mechanics Stress concentration Structural health monitoring Syntactic and Composite Foams Tunable lasers Whispering gallery modes
title	Whispering gallery mode-based micro-optical sensors for structural health monitoring of composite materials
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