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    Journals >Acta Photonica Sinica >Volume 50 >Issue 7 >Page 195 > Article
    • Acta Photonica Sinica
    • Vol. 50, Issue 7, 195 (2021)
    Design and Modulation Performance of Ultrafast Light-controlled Pulsed X-ray Tube with Photocathode
    Hao XUAN1、2, Yongan LIU1, Pengfei QIANG1, Tong SU1, Xianghui YANG1, Lizhi SHENG1, and Baosheng ZHAO1
    Author Affiliations
  • 1State Key Laboratory of Transient Optics and Photonics, Xi'an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xi'an709, China
  • 2School of Optoelectronics, University of Chinese Academy of Sciences, Beijing100049, China
    • show less
    DOI: 10.3788/gzxb20215007.0725001 Cite this Article
    Hao XUAN, Yongan LIU, Pengfei QIANG, Tong SU, Xianghui YANG, Lizhi SHENG, Baosheng ZHAO. Design and Modulation Performance of Ultrafast Light-controlled Pulsed X-ray Tube with Photocathode[J]. Acta Photonica Sinica, 2021, 50(7): 195 Copy Citation Text show less
    References

    [1] M YAFFE, J ROWLANDS. X-ray detectors for digital radiography. Physics in Medicine & Biology, 42, 1-39(1997).

    [2] G ZENTAI. X-ray imaging for homeland security. International Journal of Signal and Imaging Systems Engineering, 3, 13-20(2010).

    [3] K LU, C HE, N GUO et al. Low-dose X-ray radiotherapy-radiodynamic therapy via nanoscale metal-organic frameworks enhances checkpoint blockade immunotherapy. Nature Biomedical Engineering, 2, 600-610(2018).

    [4] O GLASSER. Wilhelm Conrad Röntgen and the early history of the Roentgen rays(1993).

    [5] Basosheng ZHAO, Qiurong YAN, Lizhi SHENG等. Grid-controlled X-ray source, space X-ray communication system and methods. China.

    [6] C GHOSH, B VARMA. Preparation and study of properties of a few alkali antimonide photocathodes. Journal of Applied Physics, 49, 4549-53(1978).

    [7] J W JEONG, J T KANG, S CHOI et al. A digital miniature x-ray tube with a high-density triode carbon nanotube field emitter. Applied Physics Letters, 102(2013).

    [8] J W JEONG, J W KIM, J T KANG et al. A vacuum-sealed compact x-ray tube based on focused carbon nanotube field-emission electrons. Nanotechnology, 24(2013).

    [9] I ANDRIYASH, R LEHE, A LIFSCHITZ et al. An ultracompact X-ray source based on a laser-plasma undulator. Nature Communications, 5, 1-6(2014).

    [10] L RYMELL, M BERGLUND, H HERTZ. Debris‐free single‐line laser‐plasma x‐ray source for microscopy. Applied Physics Letters, 66, 2625-2627(1995).

    [11] J AMANN, W BERG, V BLANK et al. Demonstration of self-seeding in a hard-X-ray free-electron laser. Nature Photonics, 6, 693-698(2012).

    [12] S DERENZO, W MOSES, S BLANKESPOOR et al. Design of a pulsed x-ray system for fluorescent lifetime measurements with a timing accuracy of 109 ps(1992).

    [13] S BLANKESPOOR, S DERENZO, W MOSES et al. Characterization of a pulsed x-ray source for fluorescent lifetime measurements. IEEE Transactions on Nuclear Science, 41, 698-702(1994).

    [14] G TIMOFEEV, N POTRAKHOV. Pulsed X-ray source based on photo X-ray tube. MS&E, 387(2018).

    [15] G TIMOFEEV, N POTRAKHOV, A NECHAEV. Experimental research of the x-ray communication system(2019).

    [16] K D LANGER, J VUČIĆ, C KOTTKE et al. Exploring the potentials of optical-wireless communication using white LEDs(2011).

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    Hao XUAN, Yongan LIU, Pengfei QIANG, Tong SU, Xianghui YANG, Lizhi SHENG, Baosheng ZHAO. Design and Modulation Performance of Ultrafast Light-controlled Pulsed X-ray Tube with Photocathode[J]. Acta Photonica Sinica, 2021, 50(7): 195
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