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Phase response of polarization-maintaining optical fiber to temperature changes

Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This paper deals with the phase shift development in the polarization-maintaining fiber owing to different temperatures of an applied defined body, where both polarization axes are excited. A variation of the Stokes parameters induced by the phase shift is expressed by the Jones matrix and a depiction on the observable Poincaré sphere. The temperature response of polarization-maintaining fiber and the effects of heat transfer on the phase shift variation of polarization-maintaining fiber were described theoretically. The time dependence of the phase shift development and its direction of rotation on the observable Poincaré sphere was measured and presented graphically. In addition, different response measures for higher and lower temperatures compared with the ambient temperature were experimentally evaluated.
Czasopismo
Rocznik
Strony
635--649
Opis fizyczny
Bibliogr. 14 poz., rys., tab.
Twórcy
autor
  • Department of Electrical Engineering, Faculty of Military Technology, University of Defence, Kounicova 65, Brno, Czech Republic
autor
  • Department of Radar Technology, Faculty of Military Technology, University of Defence, Kounicova 65, Brno, Czech Republic
autor
  • Department of Electrical Engineering, Faculty of Military Technology, University of Defence, Kounicova 65, Brno, Czech Republic
autor
  • Department of Electrical Engineering, Faculty of Military Technology, University of Defence, Kounicova 65, Brno, Czech Republic
Bibliografia
  • [1] KYSELÁK M., VLČEK Č., MASCHKE J., DVOŘÁK F., Optical fibers with high birefringence as a sensor element, Proceedings of 2016 IEEE 6th International Conference on Electronics Information and Emergency Communication (ICEIEC 2016), 2016, p. 190–193.
  • [2] DVORAK F., MASCHKE J., VLCEK C., The response of polarization maintaining fibers upon temperature field disturbance, Advances in Electrical and Electronic Engineering 12(2), 2014, pp. 168–176.
  • [3] DVORAK F., MASCHKE J., VLCEK C., The analysis of fiber sensor of temperature field disturbance by human body part access, Advances in Electrical and Electronic Engineering 12(6), 2014, pp. 575–581.
  • [4] DVOŘÁK F., MASCHKE J., VLČEK Č., Utilization of birefringent fiber as sensor of temperature field disturbance, Radioengineering 18(4), 2009, pp. 639–643.
  • [5] FENG ZHANG, LIT J.W.Y., Temperature and Strain Sensitivity Measurements of High-Birefringent Polarization-Maintaining Fibers, Physics and Computer Science Faculty Publications, 1993.
  • [6] DOMANSKI A.W., Polarization degree fading during propagation of partially coherent light through retarders, Opto-Electronics Review 13(2), 2005, pp. 171–176.
  • [7] LESIAK P., RAJAN G., SEMENOVA Y., FARRELL G., BOCZKOWSKA A., DOMAŃSKI A., WOLIŃSKI T., A hybrid highly birefringent fiber optic sensing system for simultaneous strain and temperature measurement, Photonics Letters of Poland 2(3), 2010, pp. 140–142.
  • [8] SANG MIN JEON, YONG PYUNG KIM, Temperature measurements using fiber optic polarization interferometer, Optics and Laser Technology 36(3), 2004, pp. 181–185.
  • [9] SHURCLIFF W., Polarized Light, Production and Use, Harvard University Press, Oxford University Press, Cambridge, London, 1962.
  • [10] BORN M.., WOLF E., Principles of Optics, 7th Ed., Cambridge University Press, 1999, pp. 556–570.
  • [11] COLLETT E., Polarized Light in Fiber Optics, Lincroft, New Jersey (USA), 2003.
  • [12] COLLETT B., SCHAEFER B., Visualization and calculation of polarized light. I. The polarization ellipse, the Poincaré sphere and the hybrid polarization sphere, Applied Optics 47(22), 2008, pp. 4009–4016.
  • [13] CHIN-LIN CHEN, Foundations for Guided-Wave Optics, Wiley, New Jersey, 2007.
  • [14] MORAN M., SHAPIRO H., Fundamentals of Engineering Thermodynamics, 5th Ed., Wiley, USA, 2006.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-41b0ebc1-b5fc-4810-9b8d-6996bc06b996
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