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入射光偏振方向对LiNbO_3晶体近光轴电光调制的影响 被引量:17

Effect of the Polarization Direction of Incident Light on Electro-Optic Modulator for Light Propagating near the Optic Axis in LiNbO_3
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摘要 分析了在垂直LiNbO3 晶体光轴方向加电压,光沿近光轴方向传播时,入射光偏振方向对电光调制器的影响.通过计算加电场后双折射光程差的变化和偏光振动方向的转动,画出在正交偏振镜下不同起偏方向的锥光干涉图,得到干涉图随起偏方向变化的规律:由偏光振动方向转动引起的消光区域随起偏方向的转动而转动,在起偏和检偏方向上始终消光,在与起偏方向成±45°角方向始终全透光,并且消光线的交点即感应双光轴头不随起偏方向的转动而变化,始终在折射率变大的感应主轴上. The electro-optic effect in LiNbO3 crystal has been analyzed for light propagating near the optic axis with any polarization direction and for an electric field direction perpendicular to the optic axis. The passive and the electrically induced birefringences and the rotation of polarization direction have been calculated, and the conoscopic interference figures under orthogonal polariscopes for different polarization directions and a field in x-axis of LiNbO3 have been plotted. The extinction areas caused by the rotation of polarization direction change with the polarization direction of light, but the two heads of the induced optical axes do not vary, which are always on the induced principal axis with bigger refractive index. The directions of polariscopes are always extinction, and the ±45° directions with polariscopes always have the maximum intensity. The conoscopic interference figures have been demonstrated experimentally by rotating polariscopes directions, which are accord with the theoretically calculating plots.
出处 《中国激光》 EI CAS CSCD 北大核心 2005年第3期319-322,共4页 Chinese Journal of Lasers
基金 国家自然科学基金(60177016) 国家科技部(2002CCA03500)资助课题.
关键词 激光技术 电光调制 近光轴 LINBO3晶体 Birefringence Electrooptical devices Lasers Light extinction Light modulators Light polarization Lithium niobate Optical rotation Polariscopes Refractive index
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  • 1王宁,殷耀祖,钱家钧,梁丰,刘立人.集成模块化Cantor网络的控制和光学实现[J].光学学报,1996,16(7):958-962. 被引量:3
  • 2王斌泉,刘立人,王宁,彭海峰.光寻址2×2光学开关及3-D集成光学蝶形互连网络的实现[J].光学学报,1996,16(12):1757-1761. 被引量:3
  • 3Wu Y,Appl Opt,1993年,32卷,35期,7210页
  • 4Yariv A, Yeh P. Optical Waves in Crystals. New York:Wiley, 1984.
  • 5Hida Y, Onose H, Imamura S. Polymer waveguide thrmooptic switch with low electric power consumption at 1.3 μm.IEEE Photon. Technol. Lett.,1993.5(7):782-784.
  • 6Wu M C.Micromachining for optical and optoelectronic systems. Proc, IEEE, 1997,85(11):1835-2856.
  • 7Wong K W, Cheng L M.Optical omegn network:a compact implementation technique. Appl. Opt..1995,34(29):6648-4451.
  • 8Krishnamoorthy A V, Wu F, Ford J E et al.. Polarization-controlled multistage switch -based on polarization-selective computer-generated holograms.Appl. Opt.,1997,36(5):997-1010.
  • 9Jenkins R B, Clymer B S. Acousto-optic comparison switch for optical switching networks with analog addressing techniques. Appl.Opt.,1992,31(26):5453-5463.
  • 10Johnson K M. Suretle M R,Shamir J. Optical interconnection network using polarization-based ferroelectric liquid crystal gates . Appl, Opt., 1988.27(9):1727-1733.

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