Green A R, Bennett L G I, Lewis B J, Tume P, Andrews H R, Noulty R A, Ing H
Department of Chemistry and Chemical Engineering, Royal Military College of Canada, PO Box 17000 Stn Forces, Kingston, Ontario, Canada K7K 7B4.
Radiat Prot Dosimetry. 2006;120(1-4):485-90. doi: 10.1093/rpd/nci686.
The Earth's atmosphere acts as a natural radiation shield which protects terrestrial dwellers from the radiation environment encountered in space. In general, the intensity of this radiation field increases with distance from the ground owing to a decrease in the amount of atmospheric shielding. Neutrons form an important component of the radiation field to which the aircrew and spacecrew are exposed. In light of this, the neutron-sensitive bubble detector may be ideal as a portable personal dosemeter at jet altitudes and in space. This paper describes the ground-based characterisation of the bubble detector and the application of the bubble detector for the measurement of aircrew and spacecrew radiation exposure.
地球大气层起到天然辐射屏蔽的作用,保护地球上的居民免受太空中的辐射环境影响。一般来说,由于大气屏蔽量减少,该辐射场的强度会随着离地面距离的增加而增强。中子是机组人员和航天员所暴露的辐射场的重要组成部分。鉴于此,对中子敏感的气泡探测器可能是喷气式飞机飞行高度和太空中理想的便携式个人剂量计。本文描述了气泡探测器的地面特性以及该气泡探测器在测量机组人员和航天员辐射暴露方面的应用。