Physical Review Accelerators and Beams (Nov 2021)

Design and performance of a pulsed power-driven x-ray source for flash radiography

  • Xie Weiping,
  • Xia Minghe,
  • Guo Fan,
  • Geng Lidong,
  • Zhao Yue,
  • Xu Le,
  • Feng Shuping,
  • Zhou Liangji,
  • Wei Bing,
  • He An,
  • Yuan Jianqiang,
  • Chen Lin,
  • Li Hongtao,
  • Han Wenhui,
  • Jiang Jihao,
  • Li Feng,
  • Wang Zhi,
  • Li Yong,
  • Kang Junjun,
  • Zhang Yuanjun,
  • Wu Wei,
  • Wang Meng,
  • Zou Wenkang

DOI
https://doi.org/10.1103/PhysRevAccelBeams.24.110401
Journal volume & issue
Vol. 24, no. 11
p. 110401

Abstract

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The design and test results of a pulsed power-driven X-ray source which is named Hawkeye-I are described. The Hawkeye-I is developed to execute flash X-ray radiography. It is a six-stage induction voltage adder and terminated by a positive polarity rod-pinch diode. The six stages are identical and the prime energy of each stage is provided by a tesla transformer elevating the output voltage from a discharge brick which consists of two 4 μF capacitors and a three-electrode gas switch. Comparing to the induction voltage adders driven by Marx generators, the numbers of gas switches and capacitors in the energy storage sections of Hawkeye-I decrease significantly. The Hawkeye-I can produce a maximum output voltage of about 4.2 MV. The corresponding X-ray source spot size and dose at 1 m are 1.4 mm and 17.9 rad, respectively. Fifty consecutive shots have been conducted to evaluate the reliability of the machine and 98% of the shots are successful. Furthermore, as the energy propagating in the accelerator is mainly determined by seven laser-triggered gas switches, the Hawkeye-I is capable of controlling the timing of the X-ray pulse accurately.