张卫媛, 范敦煌, 卓维海, 季华钧. 静电对被动累积式氡浓度测量影响的实验研究[J]. 中国辐射卫生, 2018, 27(2): 136-138.
ZHANG Weiyuan, FAN Dunhuang, ZHUO Weihai, JI Huajun. An experimental study on the effect of static electricity on radon measurements by using passive methods. , 2018, 27(2): 136-138.
[1] UNSCEAR. Sources and effects of ionizing radiation[R]. New York:United Nations, 2008. [2] World Health Organization. WHO handbook on indoor radon:A public health perspective[M]. Geneva:World Health Organization, 2009:3-20. [3] 杨维耿,胡丹,郑国栋,等.典型办公室内氡浓度水平的时间性变化[J].中国辐射卫生, 2010(04):389-391. [4] 张亮,黄林,郭秋菊.北京地区室外氡浓度变化规律的研究[J].辐射防护, 2008(05):286-291. [5] 田丽霞,葛良全,程锋,等.氡浓度的时间和空间变化特征[J].中国辐射卫生, 2006(04):385-387. [6] 卓维海,陈波,李德红,等.CR-39探测器对α粒子入射角度和能量响应的实验研究[J].原子能科学技术, 2008(S1):322-325. [7] Iida T, Guo Q, Ikebe Y. Some problems on the measurement of 222Rn concentrations by passive cup method[J]. Health physics, 1995, 69(4):508-512. [8] Iida T, Ikebe Y, HattorI T, et al. An electrostatic integrating 222Rn monitor with cellulose nitrate film for environmental monitoring[J]. Health Physics, 1988, 54(2):139-148.