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Volume 39 Issue 5
Jul.  2015
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Design and simulation of polarization splitters based on lithium niobate photonic wires

  • 1.

    School of Electronics Engineering, Xi'an University of Posts and Telecommunication, Xi'an 710121, China

  • Corresponding author: CHEN Ming, chenming5628@sina.com
  • Received Date: 2014-07-11
    Accepted Date: 2014-10-13
  • In order to design a polarization splitter based on lithium niobate photonic wires, the splitter was analyzed and optimized by using the electromagnetic simulation software based on finite element method and the optimal design result of compact structure size was gotten. The effects of the changes of waveguide width on the transmission of the splitter were analyzed with the consideration of the common process error. The results show that the bandwidth and power transmittance of the polarization splitter have the strong relationship with the waveguide coupling length.
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    HUANG W W, ZHANG Y, LI B J. Ultracompact wavelength and po- larization sputters in periodic dielectric waveguides [J]. Optics Express,2008,16(3):1600-1609.
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    LAW M.Nano ribbed waveguide for subwavelength photonic integration[J].Science,2004, 305(27):1269-1273.
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    SOHLER W. Erbium-doped lithium niobate waveguide lasers[C]//Electro-Optics Europe,2000. New York,USA: IEEE,2000:1-1
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    HU H, RICKEN R, SOHLER W. Lithium niobate photon is wires[J].Opttics Express,2009, 17(26):24261-24268.
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    GUARINO A, POBERAJ G, REZZONICO D, et al. Electro-optically tunable microring resonators in lithium niobate[J]. Nature Photonics, 2007, 1(7): 407-410.
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    WEIS R S, GAYLORD T K.Lithium niobate: summary of physical properties and crystal structure[J]. Applied Physics,1985, A37(4): 191-203.
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    POBERAJ G, KOECHLIN M, SULSER F, et al.Ion-sliced lithium niobate thin filmsfor active photonic devices[J]. Optical Materials,2009, 31(7): 1054-1058 .
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    TAKAOKA T, FUJIMURA M, SUHARA T.Fabrication of ridge waveguides in LiNbO3 thin film crystal by proton-exchange accelerated etching[J].Electronice Letters, 2009,45(18):940-941.
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    BURR G W, DIZIAIN S, BERNAL M P. Theoretical study of lithium niobate slab waveguides for integrated optics applications[J]. Optical Materials, 2009, 31(10): 1492-1497.
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    CHEN M, LIU Z Ch. Design of ultral-compact wavelength splitter based on lithium niobate nanowite optical waveguides[J]. Optoelectronics Letters,2012, 8(1): 17-20.
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    XI'AN UNIVERSITY OF POSTS AND TELECOMMUNICATIONS. The polarization splitter based on lithium niobate photonic wires:China,201210023243[P]. 2012-07-04(in Chinese).
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    YANAGAWA H, MAK H, KAMATA Y, et al. High extinction guided-wave optical polarization splitter[J].IEEE Photonics Technology Letters,1991,3(1):17-18
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    DAI D X, BOWERS J E.Novel concept for ultracompact polarization splitter-rotator based on silicon nanowires[J].Optics Express, 2011,19(11):10940-10949.
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    沈阳化工大学材料科学与工程学院 沈阳 110142

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Design and simulation of polarization splitters based on lithium niobate photonic wires

    Corresponding author: CHEN Ming, chenming5628@sina.com
  • 1. School of Electronics Engineering, Xi'an University of Posts and Telecommunication, Xi'an 710121, China
  • Received Date: 2014-07-11
  • Accepted Date: 2014-10-13
  • Available Online: 2015-09-25

Abstract: In order to design a polarization splitter based on lithium niobate photonic wires, the splitter was analyzed and optimized by using the electromagnetic simulation software based on finite element method and the optimal design result of compact structure size was gotten. The effects of the changes of waveguide width on the transmission of the splitter were analyzed with the consideration of the common process error. The results show that the bandwidth and power transmittance of the polarization splitter have the strong relationship with the waveguide coupling length.

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