Tilted fiber grating accelerometer incorporating an abrupt biconical taper for cladding to core recoupling
TLDR
A compact power-referenced fiber-optic accelerometer using a weakly tilted fiber Bragg grating combined with an abrupt biconical taper is demonstrated and power change in reflection is shown to be proportional to acceleration.Abstract:
We demonstrate a compact power-referenced fiber-optic accelerometer using a weakly tilted fiber Bragg grating (TFBG) combined with an abrupt biconical taper. The electric-arc-heating induced taper is located a short distance upstream from the TFBG and functions as a bridge to recouple the TFBG-excited lower-order cladding modes back into the fiber core. This recoupling is extremely sensitive to microbending. We avoid complex wavelength interrogation by simply monitoring power change in reflection, which we show to be proportional to acceleration. In addition, the Bragg resonance is virtually unaffected by fiber bending and can be used as a power reference to cancel out any light source fluctuations. The proposed sensing configuration provides a constant linear response (nonlinearity < 1%) over a vibration frequency range from DC to 250 Hz. The upper vibration frequency limit of measurement is determined by mechanical resonance, and can be tuned by varying the sensor length. The tip-reflection sensing feature enables the sensor head to be made small enough (20~100 mm in length and 2 mm in diameter) for embedded detection. The polymer-tube-package makes the sensor sufficiently stiff for in-field acceleration measurement.read more
Citations
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Journal ArticleDOI
Tilted fiber Bragg grating sensors
TL;DR: In this paper, a tilt of the grating fringes causes coupling of the optical power from the core mode into a multitude of cladding modes, each with its own wavevector and mode field shape.
Journal ArticleDOI
[INVITED] Tilted fiber grating mechanical and biochemical sensors ☆
TL;DR: The tilted fiber Bragg grating (TFBG) is a new kind of fiber-optic sensor that possesses all the advantages of well-established Bragg Grating technology in addition to being able to excite cladding modes resonantly as discussed by the authors.
Journal ArticleDOI
Fiber Bragg Grating Sensors for the Oil Industry.
TL;DR: A novel technology of ultrasonic imaging of seismic physical models using FBG sensors, which is superior to conventional seismic exploration methods and demonstrates superior sensitivity, more compact structure, improved spatial resolution, high stability and immunity to electromagnetic interference (EMI).
Journal ArticleDOI
Cladding mode coupling in highly localized fiber Bragg gratings: modal properties and transmission spectra
Jens Thomas,Nemanja Jovanovic,Ria G. Becker,Graham D. Marshall,Michael J. Withford,Andreas Tünnermann,Stefan Nolte,Michael J. Steel +7 more
TL;DR: In this article, the spectral characteristics of a fiber Bragg grating with a transversely inhomogeneous refractive index profile was investigated and the coupling into cladding modes of higher azimuthal order was found to be sensitive to the position of the modification in the core.
Journal ArticleDOI
Directional Bend Sensor Based on Re-Grown Tilted Fiber Bragg Grating
Abstract: A novel fiber optic bend sensor is implemented by using a re-grown tilted fiber Bragg grating (TFBG) written in a small core single mode fiber with UV overexposure. The spectrum of the re-grown TFBG contrasts with that of normal TFBG by exhibiting large differences in the amplitude between neighboring symmetric (LP0m) and asymmetric (LP1m) cladding mode resonances, moreover each asymmetric cladding mode resonance splits into two peaks (corresponding to two orthogonal polarization states). The differential response of the three individual resonances of such group provides quantitative information about the magnitude and directions of bends in the TFBG. Numerical simulations indicate that the changes in the cladding-mode profiles in a bent fiber are responsible for this behavior through their impact on coupling coefficients. A bend sensitivity of 0.4 dB. m (for the 18th order group of cladding modes) is experimentally demonstrated within a range of 0-10.6 m- 1.
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Flexural beam-based fiber Bragg grating accelerometers
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