[1] Wang L, Zhao W Y, Wang H X, et al.Higher-order PMD effects on high bit-rate transmission systems.Acta Photonica Sinica,2002,31(8): 941~945
[2] Liu K X,Huang Y Q,Ren X M.Second-order polarization mode dispersion and its statistical characteristics in single mode fiber.Acta Photonica Sinica,2005,34(1):89~93
[3] Chen L,Zhang X G,Zhang R,et al.The influences of polarization mode dispersion on multichannel optical communication system.Acta Photonica Sinica,2004,33(4):443~447
[4] Zhou Y W,Guo L W,Qu R H,et al.Analysis of statistical characteristics of the first and second order polarization mode dispersion of PMD emulator.Acta Photonica Sinica,2004,33(3):333~337
[5] Foschini G J, Poole C D. Statistical theory of polarization dispersion in single mode fibers.J Lightwave Technol,1991,9(11):1439~1456
[6] Karlsson M, Brentel J, Andrekson P A. Long-term measurement of PMD and polarization drift in installed fibers.J Lightwave Technol,2000,18(7) :941~951
[7] Chou P C, Fini J M, Haus H A. Demonstration of a feed-forward PMD compensation technique.IEEE Photon Technol Lett,2002,14(2):161~163
[8] Lanne S, Idler W. Fully automatic PMD compensation at 40 Gb/s.Electron Lett,2002,38(1):40~41
[9] Cristian F, Denis P. Polarization mode dispersion in single-mode optical fibers: time impulse response.IEEE International Conference,Vancouver, BC Canada, 1999,3:1731~1735
[10] Gordon J P, Kogelnik H. PMD fundamentals: polarization mode dispersion in optical fibers.P Natl Acad Sci USA,2000,97(9) :4541~4550
[11] Rajiv R, Kumar S. Optical Networks: A Practical Perspective. San Francisco:Morgan Kaufmann Publishers, Inc. 1998.46