6.2 : Relative Humidity Sensor Using Optical Fiber Bragg Gratings Activate Navigation Menu 7.1 : Sub-pN shear-force feed back system in air and liquid

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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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 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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 Table of Contents

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 { Abstract / Résumé }

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 Chapter 1 : Introduction

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 Chapter 2 : Fiber Bragg Gratings

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 Chapter 3 : FBG simulation and reconstruction

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 Chapter 4 : FBG characterization by optical low coherence reflectometry

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 Chapter 5 : FBG strain sensors

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 Chapter 6 : FBG based humidity and temperature sensor

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Chapter 7 : OLCR based picometric vibration sensor

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 7.1 : Sub-pN shear-force feed back system in air and liquid

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 7.2 : References

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 Chapter 8 : Conclusions and future work

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 Appendix : A, B, C, D and E

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 Other parts

Chapter 7 : OLCR based picometer vibration sensor



This chapter presents the paper (in preparation) about the development of a new OLCR based fiber optical vibration sensor for SNOM (Scanning Near-field Optical Microscopy) applications. This work has been conducted in collaboration with the SNOM group of the Applied Optics Institute (EPFL), in particular with Dr. Omar Sqalli.

The developed sensor exhibits remarkable potentials due to the very high sensitivity and the relative immunity against small air and vibrations perturbations.



7.1 Sub-pN shear-force feed back system in air and liquid
7.2 References


6.2 : Relative Humidity Sensor Using Optical Fiber Bragg Gratings Activate Navigation Menu 7.1 : Sub-pN shear-force feed back system in air and liquid