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High Power Laser and Particle Beams, Volume. 32, Issue 11, 112005(2020)

State of the art and future prospective of high performance streak cameras for laser fusion

Xin Hu1... Jin Li1, Shenye Liu1, Kunlin Zhang2, Yukun Li1, Feng Wang1, Jiamin Yang1, Yongkun Ding3, Shaoen Jiang1 and Xing Zhang1 |Show fewer author(s)
Author Affiliations
  • 1Research Center of Laser Fusion, CAEP, P. O. Box 919-988, Mianyang 621900, China
  • 2North Night Vision Technology Co Ltd, Kunming 650217, China
  • 3Institute of Applied Physics and Computational Mathematics, Beijing 100088, China
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    AbstractGet PDF(in Chinese)
    Figures&Tables (21)
    Equations (1)
    References (16)
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    Paper Information
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    Figures & Tables(21)
    Electron optics simulation map of coaxial electrode double-focus streak tube

    Fig. 1. Electron optics simulation map of coaxial electrode double-focus streak tube

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    Coaxial electrode double-focus streak tube

    Fig. 2. Coaxial electrode double-focus streak tube

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    LFRC’s present design of X-ray streak camera based on coaxial electrode double-focus streak tube inserted inside an air box

    Fig. 3. LFRC’s present design of X-ray streak camera based on coaxial electrode double-focus streak tube inserted inside an air box

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    Tested resolution of coaxial electrode double-focus streak tube

    Fig. 4. Tested resolution of coaxial electrode double-focus streak tube

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    MTF curves for the Petzval corrector scheme

    Fig. 5. MTF curves for the Petzval corrector scheme

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    Electron optics simulation image of bilamellar streak tube showing the spatial resolution

    Fig. 6. Electron optics simulation image of bilamellar streak tube showing the spatial resolution

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    Bilamellar electron optics streak tube

    Fig. 7. Bilamellar electron optics streak tube

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    Curves for signal position on the cathode vs CCD count

    Fig. 8. Curves for signal position on the cathode vs CCD count

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    Width of the collection surface as a function of the inverse of the extracting field

    Fig. 9. Width of the collection surface as a function of the inverse of the extracting field

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    Static focused image of coaxial electrode double-focus streak tube

    Fig. 10. Static focused image of coaxial electrode double-focus streak tube

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    Static focused image of bilamellar streak tube

    Fig. 11. Static focused image of bilamellar streak tube

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    Electron optics simulation map of double-cathode bilamellar streak tube and resolution chart

    Fig. 12. Electron optics simulation map of double-cathode bilamellar streak tube and resolution chart

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    Photograph of double cathode of the streak tube

    Fig. 13. Photograph of double cathode of the streak tube

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    Section view of bilamellar streak tube with 3ω backlighting ultraviolet fiducial

    Fig. 14. Section view of bilamellar streak tube with 3ω backlighting ultraviolet fiducial

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    Cross section of the streak tube with 4ω fiducial

    Fig. 15. Cross section of the streak tube with 4ω fiducial

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    Timing of the CMOS charge dump and read camera

    Fig. 16. Timing of the CMOS charge dump and read camera

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    Timing of the hybrid CMOS camera

    Fig. 17. Timing of the hybrid CMOS camera

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    Temporal relations between trigger pulse,gating pulse and optical signal pulse

    Fig. 18. Temporal relations between trigger pulse,gating pulse and optical signal pulse

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    Ambient noise reduction through cathode gating

    Fig. 19. Ambient noise reduction through cathode gating

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    • Table 1.

      Performance of X-ray streak camera based on coaxial cylinder electrode steak tube

      同轴电极扫描管X射线条纹相机技术指标

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      Table 1.

      Performance of X-ray streak camera based on coaxial cylinder electrode steak tube

      同轴电极扫描管X射线条纹相机技术指标

      calibration testXsc1* of LFRC (coaxial cylinder electrode)notes
      *Xsc1: X-ray streak camera 1
      temporal resolution0.5% of full screen streak time100 μm slit width before cathode
      spatial resolution/(lp·mm−120 @10%CTFin the center of the cathode
      dynamic range (5 ns sweep)~200∶1variation of 20% of the measured temporal FWHM
      effective cathode length/mm305 lp/mm@10%CTF at the edge of the cathode
      magnification1.26cathode high voltage at 12 kV

    • Table 2.

      Performance of X-ray streak camera based on bilamellar electron-optical steak tube

      双板电极扫描管X射线条纹相机技术指标

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      Table 2.

      Performance of X-ray streak camera based on bilamellar electron-optical steak tube

      双板电极扫描管X射线条纹相机技术指标

      calibration testXsc2* for LFRC(bilamellar electron-optical system)notes
      *Xsc2: X-ray streak camera 2
      temporal resolution0.35% of full screen streak time1 mm slit width before cathode
      spatial resolution/(lp·mm−130 @10%CTFin the center of the cathode
      dynamic range(5 ns sweep)~200∶1variation of 20% of the measured temporal FWHM
      effective cathode length/mm2210 lp/mm@10%CTF at the edge of the cathode
      magnification1.62cathode high voltage at 12 kV
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    Xin Hu, Jin Li, Shenye Liu, Kunlin Zhang, Yukun Li, Feng Wang, Jiamin Yang, Yongkun Ding, Shaoen Jiang, Xing Zhang. State of the art and future prospective of high performance streak cameras for laser fusion[J]. High Power Laser and Particle Beams, 2020, 32(11): 112005

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    Paper Information

    Category: Inertial Confinement Fusion Physics and Technology

    Received: May. 10, 2020

    Accepted: --

    Published Online: Jan. 4, 2021

    The Author Email:

    DOI:10.11884/HPLPB202032.200109

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology