Optical Strain Measurement with Step-Index Polymer Optical Fiber Based on the Phase Measurement of an Intensity-Modulated Signal

Optical Strain Measurement with Step-Index Polymer Optical Fiber Based on the Phase Measurement of an Intensity-Modulated Signal

Polymer optical fibers (POFs) have been proposed for optical strain sensors due to their large elastic strain range compared to glass optical fibers (GOFs). The phase response of a single-mode polymer optical fiber (SM-POF) is well-known in the literature, and depends on the physical deformation of...

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Main Authors: Thomas Becker, Olaf Ziemann, Rainer Engelbrecht, Bernhard Schmauss
Format: Article
Language:English
Published: MDPI AG 2018-07-01
Series:Sensors
Subjects:
SI-POF
strain sensing
phase sensing
multi-mode fiber
Online Access:http://www.mdpi.com/1424-8220/18/7/2319
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spelling doaj-9d715062eddf47f49783401701216d282020-11-25T00:43:33ZengMDPI AGSensors1424-82202018-07-01187231910.3390/s18072319s18072319Optical Strain Measurement with Step-Index Polymer Optical Fiber Based on the Phase Measurement of an Intensity-Modulated SignalThomas Becker0Olaf Ziemann1Rainer Engelbrecht2Bernhard Schmauss3Polymer Optical Fiber Application Center, Technische Hochschule Nürnberg Georg Simon Ohm, Wassertorstraße 10, 90489 Nürnberg, GermanyPolymer Optical Fiber Application Center, Technische Hochschule Nürnberg Georg Simon Ohm, Wassertorstraße 10, 90489 Nürnberg, GermanyPolymer Optical Fiber Application Center, Technische Hochschule Nürnberg Georg Simon Ohm, Wassertorstraße 10, 90489 Nürnberg, GermanyInstitute of Microwaves and Photonics (LHFT), Friedrich-Alexander-Universität Erlangen-Nürnberg, Wetterkreuz 15, 91058 Erlangen, GermanyPolymer optical fibers (POFs) have been proposed for optical strain sensors due to their large elastic strain range compared to glass optical fibers (GOFs). The phase response of a single-mode polymer optical fiber (SM-POF) is well-known in the literature, and depends on the physical deformation of the fiber as well as the impact on the refractive index of the core. In this paper, we investigate the impact of strain on a step-index polymer optical fiber (SI-POF). In particular, we discuss the responsivity of an optical strain sensor which is based on the phase measurement of an intensity-modulated signal. In comparison to the phase response of an SM-POF, we must take additional influences into account. Firstly, the SI-POF is a multi-mode fiber (MMF). Consequently, we not only consider the strain dependence of the refractive index, but also its dependency on the propagation angle θz. Second, we investigate the phase of an intensity-modulated signal. The development of this modulation phase along the fiber is influenced by modal dispersion, scattering, and attenuation. The modulation phase therefore has no linear dependency on the length of the fiber, even in the unstrained state. For the proper consideration of these effects, we rely on a novel model for step-index multi-mode fibers (SI-MMFs). We expand the model to consider the strain-induced effects, simulate the strain responsivity of the sensor, and compare it to experimental results. This led to the conclusion that the scattering behavior of a SI-POF is strain-dependent, which was further proven by measuring the far field at the end of a SI-POF under different strain conditions.http://www.mdpi.com/1424-8220/18/7/2319SI-POFstrain sensingphase sensingmulti-mode fiber
collection DOAJ
language English
format Article
sources DOAJ
author Thomas Becker
Olaf Ziemann
Rainer Engelbrecht
Bernhard Schmauss
spellingShingle Thomas Becker
Olaf Ziemann
Rainer Engelbrecht
Bernhard Schmauss
Optical Strain Measurement with Step-Index Polymer Optical Fiber Based on the Phase Measurement of an Intensity-Modulated Signal
Sensors
SI-POF
strain sensing
phase sensing
multi-mode fiber
author_facet Thomas Becker
Olaf Ziemann
Rainer Engelbrecht
Bernhard Schmauss
author_sort Thomas Becker
title Optical Strain Measurement with Step-Index Polymer Optical Fiber Based on the Phase Measurement of an Intensity-Modulated Signal
title_short Optical Strain Measurement with Step-Index Polymer Optical Fiber Based on the Phase Measurement of an Intensity-Modulated Signal
title_full Optical Strain Measurement with Step-Index Polymer Optical Fiber Based on the Phase Measurement of an Intensity-Modulated Signal
title_fullStr Optical Strain Measurement with Step-Index Polymer Optical Fiber Based on the Phase Measurement of an Intensity-Modulated Signal
title_full_unstemmed Optical Strain Measurement with Step-Index Polymer Optical Fiber Based on the Phase Measurement of an Intensity-Modulated Signal
title_sort optical strain measurement with step-index polymer optical fiber based on the phase measurement of an intensity-modulated signal
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2018-07-01
description Polymer optical fibers (POFs) have been proposed for optical strain sensors due to their large elastic strain range compared to glass optical fibers (GOFs). The phase response of a single-mode polymer optical fiber (SM-POF) is well-known in the literature, and depends on the physical deformation of the fiber as well as the impact on the refractive index of the core. In this paper, we investigate the impact of strain on a step-index polymer optical fiber (SI-POF). In particular, we discuss the responsivity of an optical strain sensor which is based on the phase measurement of an intensity-modulated signal. In comparison to the phase response of an SM-POF, we must take additional influences into account. Firstly, the SI-POF is a multi-mode fiber (MMF). Consequently, we not only consider the strain dependence of the refractive index, but also its dependency on the propagation angle θz. Second, we investigate the phase of an intensity-modulated signal. The development of this modulation phase along the fiber is influenced by modal dispersion, scattering, and attenuation. The modulation phase therefore has no linear dependency on the length of the fiber, even in the unstrained state. For the proper consideration of these effects, we rely on a novel model for step-index multi-mode fibers (SI-MMFs). We expand the model to consider the strain-induced effects, simulate the strain responsivity of the sensor, and compare it to experimental results. This led to the conclusion that the scattering behavior of a SI-POF is strain-dependent, which was further proven by measuring the far field at the end of a SI-POF under different strain conditions.
topic SI-POF
strain sensing
phase sensing
multi-mode fiber
url http://www.mdpi.com/1424-8220/18/7/2319
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AT rainerengelbrecht opticalstrainmeasurementwithstepindexpolymeropticalfiberbasedonthephasemeasurementofanintensitymodulatedsignal
AT bernhardschmauss opticalstrainmeasurementwithstepindexpolymeropticalfiberbasedonthephasemeasurementofanintensitymodulatedsignal
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