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Sensitivity and dynamic phase response to thermal radiation of a polarization-maintaining fiber

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This paper deals with the phase shift development between two polarization modes in birefringent fiber, caused by body heat transfer of different temperatures. The aim is to analyze sensitivity and dynamic behaviors, which are significant when optical fiber is used as a sensor of temperature field disturbance. The analysis is based on the values measured during thermal exposure of a section of type PANDA birefringent optical fiber to heat emitted by an exposure body of chosen temperature, placed at a defined distance. The effect of heat transfer through conduction and convection is suppressed by shielding with plastic wraps. The analyzed results, the Stokes parameters and subsequent phase shift, are measured by the polarimeter. The paper follows up on previously published measurement results.
Czasopismo
Rocznik
Strony
249--261
Opis fizyczny
Bibliogr. 12 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] KYSELAK M., DVORAK F., MASCHKE J., VLCEK C., Phase response of polarization-maintaining optical fiber to temperature changes, Optica Applicata 47(4), 2017, pp. 635–649.
  • [2] KYSELAK M., VLCEK C., MASCHKE J., DVORAK 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, pp. 190–193.
  • [3] 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.
  • [4] 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.
  • [5] DVORAK F., MASCHKE J., VLCEK C., Utilization of birefringent fiber as sensor of temperature field disturbance, Radioengineering 18(4), 2009, pp. 639–643.
  • [6] SHURCLIFF W., Polarized Light, Production and Use, Harvard University Press, Cambridge, London, 1962.
  • [7] BORN M., WOLF E., Principles of Optics, 7th Ed., Cambridge University Press, 1999, pp. 556–570.
  • [8] FENG ZHANG, LIT J.W.Y., Temperature and strain sensitivity measurements of high-birefringent polarization-maintaining fibers, Physics and Computer Science Faculty Publications, 1993, article ID 24.
  • [9] DOMANSKI A.W., Polarization degree fading during propagation of partially coherent light through retarder, Opto-Electronics Review 13(2), 2005, pp. 171–176.
  • [10] LESIAK P., A hybrid highly birefringent fiber optic sensing system for simultaneous strain and temperature measurement, Photonics Letters of Poland 2(3), 2004, pp. 140–142.
  • [11] SANG MIN JEON, YONG PYUNG KIM, Temperature measurements using fiber optic polarization interferometer, Optics and Laser Technology 36(3), 2004, pp. 181–185.
  • [12] COLLETT E., Polarized Light in Fiber Optics, Lincroft, New Jersey, USA, 2003.
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-b40904c0-07d7-4369-acf0-7a0ee9197be1
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