Activity Report of JHPS Working Group on Accidental X-ray Exposures

DOI Web Site 13 References
  • AKIYOSHI Masafumi
    Subcommittee 2, JHPS Working Group on Accidental X-ray Exposures Osaka Metropolitan University, Graduate School of Engineering Division of Quantum and Radiation Engineering
  • ODA Keiji
    Subcommittee 2, JHPS Working Group on Accidental X-ray Exposures Electron Science Institute
  • KASAI Atsushi
    Subcommittee 2, JHPS Working Group on Accidental X-ray Exposures Retired, Japan Atomic Energy Research Institute
  • KOWATARI Munehiko
    Subcommittee 2, JHPS Working Group on Accidental X-ray Exposures National Institutes for Quantum Science and Technology
  • SAKAMA Minoru
    Subcommittee 2, JHPS Working Group on Accidental X-ray Exposures Department of Radiation Science and Technology, Division of Radiological Sciences, Institute of Biomedical Sciences, Tokushima University Graduate School
  • HAMADA Nobuyuki
    Subcommittee 2, JHPS Working Group on Accidental X-ray Exposures Biology and Environmental Chemistry Division, Sustainable System Research Laboratory, Central Research Institute of Electric Power Industry (CRIEPI)
  • FUKUSHI Masahiro
    Subcommittee 2, JHPS Working Group on Accidental X-ray Exposures Department of Radiological Technology, Tsukuba International University

Bibliographic Information

Other Title
  • 日本保健物理学会「エックス線被ばく事故検討WG」活動報告
  • ─Subcommittee 2: Dosimetric Issues on X-ray Exposure Accidents─
  • ─第2分科会 エックス線被ばく事故における線量評価の課題─

Description

<p>The JHPS Working Group for Discussion on X-ray Exposure Accidents summarized the background of the X-ray exposure accident happened in Himeji, Hyogo in May 2021. The working group paid attention to the viewpoint of fostering a further awareness of the need to the radiation safety culture and discussed issues identified to contribute to the prevention of possible future X-ray accidents as one of the goals. The article introduces an example to apply the dose estimation method using a Monte Carlo simulation discussed in the working group. The authors summarized other methods of dose estimation, the technical limitations and the challenges of each method. The authors believe that these summary for dose estimation method will be informative and helpful to overcome the future issues in this area. The authors also considered that information on the energy distribution of low-energy X-rays in the body of an exposed patient is important for radiation emergency medicine and radiation protection purposes and that individual and environmental monitoring of low-energy X-rays is still challenging.</p>

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