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    Journals >Frontiers of Optoelectronics >Volume 2 >Issue 1 >Page 76 > Article
    • Frontiers of Optoelectronics
    • Vol. 2, Issue 1, 76 (2009)
    Polarization beam splitter based on photonic crystal fibers
    Ke WEN, Rong WANG, Jingyuan WANG*, and Jianhua LI
    Author Affiliations
  • Institute of Communications Engineering, PLA University of Science and Technology, Nanjing 210007, China
    • show less
    DOI: 10.1007/s12200-008-0061-x Cite this Article
    Ke WEN, Rong WANG, Jingyuan WANG, Jianhua LI. Polarization beam splitter based on photonic crystal fibers[J]. Frontiers of Optoelectronics, 2009, 2(1): 76 Copy Citation Text show less
    References

    [1] Van der Tol J J G M, Pedersen J W, Metaal E G, et al. Mode evolution type polarization splitter on InGaAsP/InP. IEEE Photonics Technology Letters, 1993, 5(12): 1412-1414

    [2] Van der Tol J J G M, Pedersen J W, Metaal E G. A short polarization splitter without metal overlays on InGaAsP-InP. IEEE Photonics Technology Letters, 1997, 9(2): 209-211

    [3] Hayakawa T, Asakawa S, Kokubun Y. Arrow-B type polarization splitter with asymmetric Y-branch fabricated by a selfalignment process. Journal of Lightwave Technology, 1997, 15(7): 1165-1170

    [4] Miliou A N, Srivastava R, Ramaswamy R V. A 1.3-μm directional coupler polarization splitter by ion exchange. Journal of Lightwave Technology, 1993, 11(2): 220-225

    [5] Thyagarajan K, Seshadri S D, Ghatak A K. Waveguide polarizer based on resonant tunneling. Journal of Lightwave Technology, 1991, 9(3): 315-317

    [6] Russell P St J, Knight J C, Birks T A, et al. Recent progress in photonic crystal fibres. In: Proceedings of Optical Fiber Communication Conference (OFC2000), Baltimore. IEEE Press, 2000, 3: 98-100

    [7] Wang J Y, Jiang C, Hu W S, et al. Properties of index-guided PCF with air-core. Optics and Laser Technology, 2007, 39(2): 317-321

    [8] Wang J Y, Jiang C, Hu W S, et al. Dispersion and polarization properties of elliptical air-hole-containing photonic crystal fibers. Optics and Laser Technology, 2007, 39(5): 913-917

    [9] Wang J Y, Jiang C, Hu W S, et al. Modified design of photonic crystal fibers with flattened dispersion. Optics and Laser Technology, 2006, 38(3): 169-172

    [10] Wang J Y, Gao M Y, Jiang C, et al. Design and parametric amplification analysis of dispersion-flat photonic crystal fibers. Chinese Optical Letters, 2005, 3(7): 380-382

    [11] Wang J Y, Jiang C, Hu W S, et al. High birefringence photonic bandgap fiber with elliptical air holes. Optical Fiber Technology, 2006, 12(3): 265-267

    [12] Zhang L, Yang C X. Polarization splitter based on photonic crystal fibers. Optics Express, 2003, 11(9): 1015-1020

    [13] Saitoh K, Sato Y, Koshiba M. Polarization splitter in three-core photonic crystal fibers. Optics Express, 2004, 12(17): 3940-3946

    [14] Rosa L, Poli F, Foroni M, et al. Polarization splitter based on a square-lattice photonic-crystal fiber. Optics Letters, 2006, 31(4): 441-443

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    Ke WEN, Rong WANG, Jingyuan WANG, Jianhua LI. Polarization beam splitter based on photonic crystal fibers[J]. Frontiers of Optoelectronics, 2009, 2(1): 76
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