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Acta Optica Sinica, Volume. 44, Issue 4, 0400004(2024)

All-Optical Inverse Compton Scattering

Jianmeng Wei1,2, Changquan Xia3、*, Ke Feng2, Hong Zhang2, Hai Jiang2, Yanjie Ge2, Wentao Wang2、**, Yuxin Leng2、***, and Ruxin Li2,4
Author Affiliations
  • 1School of Physics Sciences, University of Science and Technology of China, Hefei 230026, Anhui , China
  • 2State Key Laboratory of High Field Laser Physics and CAS Center for Excellence in Ultra-intense Laser Science, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China
  • 3School of Physical Science and Technology, Yangzhou University, Yangzhou 225009, Jiangsu , China
  • 4School of Physical Science and Technology, ShanghaiTech University, Shanghai 200031, China
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    AbstractGet PDF(in Chinese)
    Figures&Tables (7)
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    References (62)
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    Figures & Tables(7)
    Schematic diagram of ICS

    Fig. 1. Schematic diagram of ICS

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    Schematic diagrams of the all-optical ICS experiment. (a) Scheme of single-laser with plasma mirror; (b) dual laser scheme (arrows indicate the propagation directions of the laser, electron beam and radiation)

    Fig. 2. Schematic diagrams of the all-optical ICS experiment. (a) Scheme of single-laser with plasma mirror; (b) dual laser scheme (arrows indicate the propagation directions of the laser, electron beam and radiation)

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    Electron (left) and corresponding X-ray photon (right) spectrum [30]

    Fig. 3. Electron (left) and corresponding X-ray photon (right) spectrum [30]

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    Relationships between the linewidth of scattered radiation and energy spread (left), the horizontal emittance (right) of the electron beam [34]

    Fig. 4. Relationships between the linewidth of scattered radiation and energy spread (left), the horizontal emittance (right) of the electron beam [34]

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    AOCS-based region-of-interest (ROI) imaging[45]. (a) Illustration of test object (ROI highlighted by a dashed circle); (b) 60-shot accumulated projection image

    Fig. 5. AOCS-based region-of-interest (ROI) imaging[45]. (a) Illustration of test object (ROI highlighted by a dashed circle); (b) 60-shot accumulated projection image

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    Radiographic results[22]. (a) Radiograph of a USB flash drive with magnification of ×1.2; (b) knife-edge imaging (knife edge is a cleaved InSb crystal)

    Fig. 6. Radiographic results[22]. (a) Radiograph of a USB flash drive with magnification of ×1.2; (b) knife-edge imaging (knife edge is a cleaved InSb crystal)

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    • Table 1. All-optical ICS experimental results

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      Table 1. All-optical ICS experimental results

      Year

      Experi-mental

      scheme

      		Laser wavelength /nma0Laser energy /JLaser pulse duration /fsElectron energy /MeVElectron charge /pCPhoton energy /MeVBrilliance /(photon·s-1·mm-2·mrad-2 per 0.1% BW)Photon numberSource size /μmSource divergence /mrad
      201222Single beam8101.21301001200.05-0.201×1021@0.1 MeV108<3(FWHM)18[full width at half maxima(FWHM)]
      201342Two beams8000.40.5902501201.21×10191075±3[root mean square(RMS)]12.7(FWHM)
      201429Two beams8000.30.13-0.1715055±3230.07-1.00

      ∼3×1018@0.07 MeV /

      ∼1×1019@1 MeV

      		1.7×1066(RMS)10 (FWHM)
      201426Two beams4000.453540053±10>93 ×105<10
      201423Two beams8002.01842±455016±36-201.8×1020@15 MeV>107(>6 MeV)302.5
      201530Two beams8000.90.32817-50200.005-0.0422×10-1-15×1018
      201624Single beam8001.03.333160-42030-1200.3-2.03×10225×10744
      201727Two beams8002-120.1-2.135

      205±15/

      362±58

      39±1/

      2±1

      		27.918±2
      201828Two beams800

      24.7±

      0.7

      		10.0±0.645250-2000εcrit > 30106(2-500 MeV)
      201943Single beam8001.80.42520020>0.2

      4.5×107 /

      1.2×107(>0.2 MeV)

      		19 / 21
      201931Single beam10531.01201000200-380

      4000-

      11000

      		0.08-0.25101150(1/e2100(1/e2
      201944Single beam8001.3633300/210301.08/0.53(2.6±0.3)×10202.3×1073.8/4.0
      202045Single beam8001.30.4540761200.071

      3×107

      1(single shot)

      14(80 consecu-tive shots

      		33/24
      202325Single beam80019-2426±221±10.049-0.2901022@10 MeV
      202332Single beam8000.54070.3/74.052/74(36% RMS)

      0.060(±

      0.005)/

      0.064(±

      0.003)

      		1.1×107/1.3×10717/13(FWHM)
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    Jianmeng Wei, Changquan Xia, Ke Feng, Hong Zhang, Hai Jiang, Yanjie Ge, Wentao Wang, Yuxin Leng, Ruxin Li. All-Optical Inverse Compton Scattering[J]. Acta Optica Sinica, 2024, 44(4): 0400004

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    Paper Information

    Category: Reviews

    Received: Sep. 27, 2023

    Accepted: Nov. 22, 2023

    Published Online: Feb. 23, 2024

    The Author Email: Xia Changquan (xiachq@yzu.edu.cn), Wang Wentao (wwt1980@siom.ac.cn), Leng Yuxin (lengyuxin@siom.ac.cn)

    DOI:10.3788/AOS231602

    CSTR:32393.14.AOS231602

    Topics

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