5.3 : References Activate Navigation Menu 6.1.1 and 2 : Influence of humidity and temperature on polyimide-coated fiber Bragg gratings (Abstract, Introduction)

Home Page   |   Site Map   |   Contact   |   No Javascript

+

 CV

+

 Ph.D.

+

 { Web Version }

+

 Table of Contents

+

 { Abstract / Résumé }

+

 Chapter 1

+

 Chapter 2

+

 Chapter 3

+

 Chapter 4

+

 Chapter 5

+

Chapter 6

+

 Chapter 7

+

 Chapter 8

+

 Appendix

+

 Other parts

+

 Post-Doc

+

 MBI

+

 Physics Diploma

+

 Photos

+

 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

+

 { 6.1 : Influence of humidity and temperature on polyimide-coated fiber Bragg gratings }

+

 6.2 : Relative Humidity Sensor Using Optical Fiber Bragg Gratings

+

 Chapter 7 : OLCR based picometric vibration sensor

+

 Chapter 8 : Conclusions and future work

+

 Appendix : A, B, C, D and E

+

 Other parts

Chapter 6 : FBG based humidity and temperature sensor



This chapter presents the results obtained in collaboration with the civil engineering department of EPFL on the development of a FBG based humidity sensor. The first section, based on a conference paper presented in 2001, reports the influence of temperature and relative humidity on polyimide coated FBG. The following section presents the published joined paper appeared in Optics letters in 2002. A theoretical approach of diffusion based on Fick's law has also been developed and numerically implemented to study the swelling properties of the polyimide used for fiber recoating. The results are not presented hereafter but can be found in the thesis work of Pascal Kronenberg (Thesis work, EPFL, 2002).



6.1 Influence of humidity and temperature on polyimide-coated fiber Bragg gratings
6.1.1-2 Influence of humidity and temperature on polyimide-coated fiber Bragg gratings (Abstract, Introduction)
6.1.3 Influence of humidity and temperature on polyimide-coated fiber Bragg gratings (Experiment)
6.1.4 Influence of humidity and temperature on polyimide-coated fiber Bragg gratings (Results and discussion)
6.1.5-6 Influence of humidity and temperature on polyimide-coated fiber Bragg gratings (Conclusion, References)
6.2 Relative Humidity Sensor Using Optical Fiber Bragg Gratings


5.3 : References Activate Navigation Menu 6.1.1 and 2 : Influence of humidity and temperature on polyimide-coated fiber Bragg gratings (Abstract, Introduction)