Huu Loi Le, Hoang Long Nguyen, Quang Son Ong, M. Ho, Van Hoang Dao, Truong Son Truong, Van Tien Vo, Quang Vuong Le
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引用次数: 0
摘要
根据ISO 4037:2019建立从N-40到N-120的窄光谱系列。本研究通过实验测量和软件建模工具包SpekPy v2.0进行。实验测定固有滤过率(在100 cm和250 cm处分别为0.332和0.492 mm Al)。与ISO 4037:2019测量的HVLs值相比,最大偏差不超过0.10 mm Al,建模不超过0.09 mm Al;h范围0.91至0.97的实验和0.89至0.96的建模(0.88 -1,ISO 4037-1:2019)。散射的最大贡献值为4.0% (< 5%,ISO 4037-1:2019)。N-40 ~ N-120的辐射场均匀性应详细列出在100 cm距离处12.5、11.0、10.0、9.0、8.5 cm的所有类别;和35.5、31.5、29.0、26.5、24.5 cm处250 cm梁中心轴线距离。在ISO 4037:2019的基础上,还确定了100 cm和250 cm处的空气kerma值,实验不确定度为3.85%至5.18%,建模不确定度为3.41%至4.19%(不超过10%,ISO 4037:2019)。因此,x射线辐射领域已根据ISO 4037:2019建立,可用于校准调查仪表和个人剂量计。
Establishment and quality assessment of X-ray narrow spectrum series according to ISO 4037:2019 at SSDL of center for nuclear technologies
Narrow spectrum series from N-40 to N-120 were established according to ISO 4037:2019. This study was made through experimental measurements and the software modeling toolkit SpekPy v2.0. Experiments were performed to determine Inherent filtration (0.332 & 0.492 mm Al at 100 cm & 250 cm, respectively). The maximum deviation compared to ISO 4037:2019 of the measured HVLs values are not more then 0.10 mm Al and for modeling not exceed 0.09 mm Al; h range 0.91 to 0.97 for experimently and 0.89 to 0.96 for modeling (0.88 - 1, ISO 4037-1:2019). The maximum contribution of scattering is value 4.0% (< 5%, ISO 4037-1:2019). Radiation field uniformity of N-40 to N-120 should list all categories in detail 12.5, 11.0, 10.0, 9.0, 8.5 cm at 100 cm distance; and 35.5, 31.5, 29.0, 26.5, 24.5 cm at 250 cm beam center axis distance. On the basis of ISO 4037:2019, air kerma values at 100 cm and 250 cm have also been determined with uncertainties 3.85% to 5.18% for experimently and 3.41% to 4.19% for modeling (not exceed 10%, ISO 4037:2019). Therefore, the X-ray radiation field has been well established in compliance with the ISO 4037:2019, it can be used for calibrating survey meters and personal dosimeters.