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Temperature tuning of polarization mode dispersion in single-core and two-core photonic liquid crystal fibers

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Konferencja
International Workshop on Liquid Crystals for Photonics ; (26-28.04.2006 ; Gent, Belgium)
Języki publikacji
EN
Abstrakty
EN
In this paper we present numerical and experimental results of propagation and polarization properties of the photonic liquid crystal fibers (PLCFs) in which only selected micro holes were filled with nematic liquid crystal (LC) guest materials. As a host photonic crystal fiber (PFC) structure, we used a commercially available highly birefringent PCF (Blazephotonic, UK). A tunable laser operated at infrared has powered the PLCFs under investigation infiltrated by the 1550 nematic LC synthesized at the Military University of Technology. Temperature induced changes of the polarization mode dispersion (PMD) as well switching between fundamental and higher order modes and also single-core and two-core propagation were successfully demonstrated.
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  • Faculty of Physics, Warsaw University of Technology, 75 Koszykowa Str., 00-662 Warsaw, Poland, lasiak@if.pw.edu.pl
Bibliografia
  • 1. T.R. Woliński, "Polarimetric optical fibers and sensors", in Progress in Optics, Vol. XL, pp. 1-75, edited by Emil Wolf, North-Holland, Amsterdam, 2000.
  • 2. T.R. Woliński, "Polarization phenomena in optical systems", in Encyclopedia of Optical Engineering, pp. 2150-2175, edited by R.G. Diggers, Marcel Dekker Inc., New York, 2003.
  • 3. T.R. Woliński, P. Lesiak, R. Dąbrowski, J. Kędzierski, and E. Nowinowski, "Polarization mode dispersion in all elliptical liquid crystal-core fiber", Mol. Cryst. Liq. Cryst. 421, 175-186 (2004).
  • 4. T.T. Larsen, A. Bjarklev, D.S. Hermann, and J. Broeng, "Optical devices based on liquid crystal photonic bandgap", Optics Express 11, 2589-2596 (2003).
  • 5. T.R. Woliński, K. Szaniawska, K. Bondarczuk, P. Lesiak, A.W. Domański, R. Dąbrowski, E. Nowinowski-Kruszelnicki, and J. Wójcik, "Propagation properties of photonic crystals fibers filled with nematic liquid crystals", Opto-Electron. Rev. 13, 59-64 (2005).
  • 6. F. Du, Y.Q. Lu, and S.T. Wu, "Electrically tunable liquid-crystal photonic crystal fiber", Appl. Phys. Lett. 85, 2181-2183 (2004).
  • 7. T.R. Woliński, P. Lesiak, A.W. Domański, K. Szaniawska, S. Ertman, R. Dąbrowski, and J. Wójcik, "Polartization optics of microstructured liquid crystal fibers", 11th Int. Conf. Optics of Liquid Crystals, Florida, 2-7 Oct., 2005 (invited paper), Mol. Cryst. Liq. Cryst. 2006 (accepted).
  • 8. J.C. Knight, "Photonic crystal fibers", Nature 424, 847-851 (2003).
  • 9. J.C. Knight, T. Birks, B. Mangan, and P. Russell, "Photonic crystal fibers: new solutions in fiber optics", Optics and Photonics News 13, 26-30 (2002).
  • 10. R. Buczyński, "Photonic crystal fibers", Acta Physica Polonica A 106, 141-167 (2004).
  • 11. J.A. Reyes-Cervantes, J.A. Reyes-Avendano, and P. Halevi, "Electrical tuning of a photronic crystal infilled with a liquid crystal", Proc. SPIE 5511, 50-60 (2004).
  • 12. C.L. Xu, W-P. Huang, M. Stern, and S.K. Chaudhuri, "Full vectorial mode calculation by finite-difference method", IEEE Proc. Pt. J: Optoelectron. 141, 281-286 (1994).
  • 13. W.J. Bock, A.W. Domański, and T.R. Woliński, "Influence of high hydrostatic pressure on beat length in highly birefringent single-mode bow tie fibers", Appl. Optics 29, 3484 (1990).
  • 14. J. Schirmer, P. Kohns, A. Muravski, S. Yakovenko, V. Bezborodov, R. Dąbrowski, and P. Adomenas, "Birefringence and refractive indices dispersion of different liquid crystalline structures", Mol. Crys. Liq. Crys. 307, 17-42 (1997).
  • 15. T.R. Woliński and A.W. Domański, "Polarization mode dispersion in birefringent optical fibers", Acta Physica Polonica A 103, 211-219 (2003).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWA0-0018-0017
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