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    Journals >Chinese Journal of Lasers >Volume 45 >Issue 7 >Page 0704009 > Article
    • Chinese Journal of Lasers
    • Vol. 45, Issue 7, 0704009 (2018)
    Zemax Simulation Based Energy Analysis of Optical System for Laser Tracking Measurement
    Hongfang Chen1、*, Liang Tang1, Yanqiang Sun1, Zhaoyao Shi1, and Xiaofei Zhao2
    Author Affiliations
  • 1 Beijing Engineering Research Center of Precision Measurement Technology and Instruments, Beijing University of Technology, Beijing 100124, China
  • 2 Center of Computer and Microelectronics Industry Development, MIIT (China Software Testing Center),Beijing 100048, China
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    DOI: 10.3788/CJL201845.0704009 Cite this Article Set citation alerts
    Hongfang Chen, Liang Tang, Yanqiang Sun, Zhaoyao Shi, Xiaofei Zhao. Zemax Simulation Based Energy Analysis of Optical System for Laser Tracking Measurement[J]. Chinese Journal of Lasers, 2018, 45(7): 0704009 Copy Citation Text show less
    Principle diagram of optical system for laser tracking measurement
    Fig. 1. Principle diagram of optical system for laser tracking measurement
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    Flow chart of Zemax-based modeling for laser tracking measurement optical system
    Fig. 2. Flow chart of Zemax-based modeling for laser tracking measurement optical system
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    Model simulation diagram of the optical system for laser tracking measurement based on Zemax
    Fig. 3. Model simulation diagram of the optical system for laser tracking measurement based on Zemax
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    Effect of beam splitting ratio on the energy of laser tracking measurement system
    Fig. 4. Effect of beam splitting ratio on the energy of laser tracking measurement system
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    Effect of beam splitting ratio on the visibility of fringe pattern of laser tracking measurement system
    Fig. 5. Effect of beam splitting ratio on the visibility of fringe pattern of laser tracking measurement system
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    Effect of the reflectivity change of single polarizing beam splitter on the energy of laser tracking measurement system
    Fig. 6. Effect of the reflectivity change of single polarizing beam splitter on the energy of laser tracking measurement system
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    Effect of the reflectivity change of multiple polarizing beam splitters on the energy of laser tracking measurement system
    Fig. 7. Effect of the reflectivity change of multiple polarizing beam splitters on the energy of laser tracking measurement system
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    Effect of the reflectivity change of polarizing beam splitter on the visibility of fringe pattern of laser tracking measurement system
    Fig. 8. Effect of the reflectivity change of polarizing beam splitter on the visibility of fringe pattern of laser tracking measurement system
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    Effect of transmittance change of single polarizing beam splitters on the energy of laser tracking measurement system
    Fig. 9. Effect of transmittance change of single polarizing beam splitters on the energy of laser tracking measurement system
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    Effect of transmittance change of multiple polarizing beam splitters on the energy of laser tracking measurement system
    Fig. 10. Effect of transmittance change of multiple polarizing beam splitters on the energy of laser tracking measurement system
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    Abstract
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    References (19)
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    Hongfang Chen, Liang Tang, Yanqiang Sun, Zhaoyao Shi, Xiaofei Zhao. Zemax Simulation Based Energy Analysis of Optical System for Laser Tracking Measurement[J]. Chinese Journal of Lasers, 2018, 45(7): 0704009
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    Paper Information
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