4.6 : Summary Activate Navigation Menu Chapter 5 : FBG strain sensors

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 CV

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 Ph.D.

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 { Web Version }

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 Table of Contents

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 { Abstract / Résumé }

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 Chapter 1

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 Chapter 2

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 Chapter 3

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 Chapter 4

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 4.1

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 { 4.2 }

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 4.3

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 { 4.4 }

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 { 4.5 }

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 4.6

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4.7

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 Chapter 5

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 Chapter 6

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 Chapter 7

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 Chapter 8

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 Appendix

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 Other parts

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 Post-Doc

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 MBI

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 Physics Diploma

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 Photos

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 4.1 : Methods for measuring the complex impulse response of a grating

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 { 4.2 : OLCR measurement of the complex impulse response }

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 4.3 : New OLCR set-ups

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 { 4.4 : Reconstruction process }

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 { 4.5 : Reconstructed FBG }

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 4.6 : Summary

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4.7 : References

4.7        References

4-1

P. Lambelet, P.Y. Fonjallaz, H.G. Limberger, R.P. Salathé, C. Zimmer, and H.H. Gilgen, IEEE Phot. Techn. Lett. 5, 565-567 (1993)

4-2

S.D. Dyer and K.B. Rochford, "Low-coherence interferometric measurements of fibre Bragg grating dispersion", Electron. Lett., 35, 1485-1486 (1999)

4-3

F. Lindgren, R. Gianotti, R. Wälti, R.P. Salathé, A. Haas, N. Nussberger, M.L. Schmatz, IEEE Phot. Techn. Lett. 9, 1613-1615 (1997)

4-4

Born & Wolf, “Principles of Optics”, Ch. 10, §7.3, edition, p. 540-544

4-5

P. Chavel, “Coherence en optique”, Ecole Supérieure d’Optique, Institut d’Optique Théorique et Appliquée, cours de 1ère année (1995)

4-6

B.E.A. Saleh, M.C. Teich, “Fundamentals of photonics”, John Wiley&Sons (1991), p. 348-352

4-7

B.E.A. Saleh, M.C. Teich, “Fundamentals of photonics”, John Wiley&Sons (1991), p. 182-191

4-8

A. Kohlhaas, C. Frömchen and E. Brinkmeyer, “High-resolution OCDR for testing integrated-optical waveguides : dispersion-corrupted experimental data corrected by a numerical algorithm”, JLT, 9, 10, p.1493-1502 (1991)

4-9

F. Lindgren, R. Gianotti, R. Wälti, R.P. Salathé, A. Haas, N. Nussberger, M.L. Schmatz, “ -78 -dB shot-noise limited optical low-coherence reflectometry at 42 -m/s scan speed ”, IEEE Phot. Techn. Lett. 9, 1613-1615 (1997)

4-10

M.J.F. Diagonnet, B.Y. Kim, “Optical Fiber Sensors : principles and components”, Vol. One, Artech House Boston and London, Ch. 7, p. 210-219 (1988)

4-11

W.V. Sorin, D.M. Baney, “A simple intensity noise reduction technique for optical low-coherence reflectometry”, IEEE Phot. Techn. Lett. 4, 1404-1406 (1992)

4-12

A.M. Rollins, J.A. Izatt, “Optimal interferometer designs for optimal coherence tomography”, Opt. Lett., 24, 1484-1486 (1999)

4-13

W.V. Sorin, D.M. Baney, “Measurement of Rayleigh backscattering at 1.55  mm with 32  mm spatial resolution”, IEEE Phot. Techn. Lett. 4, 374-376 (1992)

4-14

P-Y. Fonjallaz, “Bragg gratings in single-mode optical fibers: characterization, stress modifications and out-couplers”, §3.2.4, Thesis work n° 1348, Ecole Polytechnique Fédérale de Lausanne (1995)


4.6 : Summary Activate Navigation Menu Chapter 5 : FBG strain sensors