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Table of Contents
{ Abstract / Résumé }
Chapter 1 : Introduction
Chapter 2 : Fiber Bragg Gratings
Chapter 3 : FBG simulation and reconstruction
Chapter 4 : FBG characterization by optical low coherence reflectometry
Chapter 5 : FBG strain sensors
Chapter 6 : FBG based humidity and temperature sensor
Chapter 7 : OLCR based picometric vibration sensor
Chapter 8 : Conclusions and future work
{ Appendix A : Slab waveguide and circular core fiber }
{ Appendix B : Modified phase mask technique description }
{ Appendix C : Coupled-mode description of FBG }
{ Appendix D : Fourier Transforms, Gaussian Function and FFT requirements for complex impulse response calculation }
{ Appendix E : Polarization rotation effect on OLCR measurements }
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Appendix : A, B, C, D, E
A
Slab waveguide and circular core fiber
A.1.1
Slab waveguide (Maxwell's equations and solutions)
A.1.2
Slab waveguide (Fundamental mode propagation constant and dispersion)
A.2.1-2
Optical Fiber Waveguide (Comparison with a slab waveguide, Maxwell's equations)
A.2.3
Optical Fiber Waveguide (Fundamental mode HE11)
B
Modified phase mask technique description
B.1
Introduction
B.2
Ray optic concatenation of lenses
B.3
Modified phase mask technique
C
Coupled-mode description of FBG
C.1
Scalar wave approximation
C.2
Coupled mode equations
C.3
Physical interpretation
C.4
References
D
Fourier Transforms, Gaussian Function and FFT requirements for complex impulse response calculation
D.1
Fourier Transforms
D.2
Gaussian Function
D.3.1
Matlab FFT and Gaussian example (Theory)
D.3.2
Matlab FFT and Gaussian example (Example)
D.4
References
E
Polarization rotation effect on OLCR measurements
E.1
OLCR set-up
E.2
Interference intensity
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