Volume 10Issue 2
Apr. 2017
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CHEN Yun-da, WANG Zhi-guo, JIANG Qi-yuan, LI Ying-ying, HUANG Yun. Influence of nonideal 1/4 wave plate on pump light polarization[J]. Chinese Optics, 2017, 10(2): 226-233. doi: 10.3788/CO.20171002.0226
Citation: CHEN Yun-da, WANG Zhi-guo, JIANG Qi-yuan, LI Ying-ying, HUANG Yun. Influence of nonideal 1/4 wave plate on pump light polarization[J].Chinese Optics, 2017, 10(2): 226-233.doi:10.3788/CO.20171002.0226

Influence of nonideal 1/4 wave plate on pump light polarization

doi:10.3788/CO.20171002.0226
Funds:

Research Project of National University of Defense TechnologyJC140702

  • Received Date:30 Aug 2016
  • Rev Recd Date:28 Sep 2016
  • Publish Date:01 Apr 2017
  • In order to study the influence of the angle error of adjusting frame and mismatching of the wavelength of the light source with the wave plate on linearly polarized light after passing through 1/4 plate, the Jones matrices of 1/4 wave plate is obtained in this paper by using coordinate transformation method, and the representation of each polarization state is derived from the Jones matrix. Then the theoretical model of the influence on the polarization are deduced when wave plate and light source do not match with each other. When the angle error of the adjusting frame is considered, the Taylor expansion about the Jones matrices of the polarization state of incident light and wave plate are derived as the angle error and get the simulation curve matching with experimental result. Simulation results indicate that in the case of not considering the adjustment error, the ovality of the emergent laser is 0.974 6 when using the 808 nm 1/4 wave plate on linearly polarized light with the 795 nm wavelength; and in the case of considering the adjustment error, the ovality is 0.96 corresponding to the highest point under ideal condition as well as the highest point of the ovality offsets 1.72°. The simulation and experimental results provide the basis for further analysis of the influence of the pump light with different ovality on atomic parameters.

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