[1] [1] 孙晓兵， 宋茂新， 吴洋， 等. 航空遥感大气多角度偏振辐射计及测试实验分析［J］. 光学 精密工程， 2022， 30（22）：2847-2859. doi: 10.37188/ope.20223022.2847SUNX B， SONGM X， WUY， et al. Analysis of the atmospheric multi-angle polarimetric radiometer for aerial remote sensing and its test experiments［J］. Opt. Precision Eng.， 2022， 30（22）：2847-2859.（in Chinese）. doi: 10.37188/ope.20223022.2847

[2] [2] 刘泽阳， 李学彬， 孙刚， 等. 中国部分地区的春季气溶胶光学特性［J］. 光学 精密工程， 2020， 28（5）：1021-1028. doi: 10.3788/OPE.20202805.1021LIUZ Y， LIX B， SUNG， et al. Optical properties of spring aerosol in typical areas of China［J］. Opt. Precision Eng.， 2020， 28（5）：1021-1028.（in Chinese）. doi: 10.3788/OPE.20202805.1021

[3] [3] 姚琳， 廖欣峰， 张海洋， 等. 中国大气重金属污染研究进展与趋势［J］. 环境科学与管理， 2012， 37（9）：41-44. doi: 10.3969/j.issn.1673-1212.2012.09.012YAOL， LIAOX F， ZHANGH Y， et al. Progress and trend of atmospheric heavy metal pollution in China［J］. Environmental Science and Management， 2012， 37（9）：41-44.（in Chinese）. doi: 10.3969/j.issn.1673-1212.2012.09.012

[4] PANAHIFAR A, COOPER D M L, DOSCHAK M R. 3-D localization of non-radioactive strontium in osteoarthritic bone： role in the dynamic labeling of bone pathological changes[J]. Journal of Orthopaedic Research, 33, 1655-1662(2015).

[5] [5] 徐萍， 蒋云平， 王利华. 田湾核电站运行后外围环境水体中锶-90放射性水平研究［J］. 中国辐射卫生， 2011， 20（3）：334-335.XUP， JIANGY P， WANGL H. Study on the 90Sr radioactivity level in the surrounding water after the operation of Tianwan Nuclear Power Station［J］. Chinese Journal of Radiological Health， 2011， 20（3）：334-335.（in Chinese）

[6] WALLACE S H, SHAW S, MORRIS K et al. Effect of groundwater pH and ionic strength on strontium sorption in aquifer sediments： implications for ⁹⁰Sr mobility at contaminated nuclear sites[J]. Applied Geochemistry, 27, 1482-1491(2012).

[7] O’HARA M J, BURGE S R, GRATE J W. Automated radioanalytical system for the determination of ⁹⁰Sr in environmental water samples by ⁹⁰Y Cherenkov radiation counting[J]. Analytical Chemistry, 81, 1228-1237(2009).

[8] [8] 梅键民， 杨俊， 赵远昭， 等. 城市大气颗粒物中重金属污染研究进展［J］. 绿色科技， 2022， 24（16）：99-103. doi: 10.3969/j.issn.1674-9944.2022.16.023MEIJ M， YANGJ， ZHAOY ZH， et al. Research progress of heavy metal pollution in urban atmospheric particulate matter［J］. Journal of Green Science and Technology， 2022， 24（16）：99-103.（in Chinese）. doi: 10.3969/j.issn.1674-9944.2022.16.023

[9] [9] 王春迎， 马越超， 崔延青， 等. 大气重金属污染监测技术现状及展望［J］. 中国环保产业， 2012（5）：49-51. doi: 10.3969/j.issn.1006-5377.2012.05.014WANGCH Y， MAY CH， CUIY Q， et al. Present situation and prospect of monitoring technology for atmospheric heavy metal pollution［J］. China Environmental Protection Industry， 2012（5）：49-51.（in Chinese）. doi: 10.3969/j.issn.1006-5377.2012.05.014

[10] RADZIEMSKI L J, LOREE T R, CREMERS D A et al. Time-resolved laser-induced breakdown spectrometry of aerosols[J]. Analytical Chemistry, 55, 1246-1252(1983).

[11] CREMERS D A, RADZIEMSKI L J. Direct detection of beryllium on filters using the laser spark[J]. Applied Spectroscopy, 39, 57-63(1985).

[12] ESSIEN M, RADZIEMSKI L J, SNEDDON J. Detection of cadmium， lead and zinc in aerosols by laser-induced breakdown spectrometry[J]. Journal of Analytical Atomic Spectrometry, 3, 985-988(1988).

[13] OTTESEN D K, WANG J C F, RADZIEMSKI L J. Real-time laser spark spectroscopy of particulates in combustion environments[J]. Applied Spectroscopy, 43, 967-976(1989).

[14] CHENG M D, KARR L, KORNUC J et al. Evaluation of aerosol lead measurement techniques using laboratory generated super-micrometer particles[J]. Microchemical Journal, 72, 209-219(2002).

[15] HAHN D W, FLOWER W L, HENCKEN K R. Discrete particle detection and metal emissions monitoring using laser-induced breakdown spectroscopy[J]. Applied Spectroscopy, 51, 1836-1844(1997).

[16] CARRANZA J E, HAHN D W. Plasma volume considerations for analysis of gaseous and aerosol samples using laser-induced breakdown spectroscopy[J]. Journal of Analytical Atomic Spectrometry, 17, 1534-1539(2002).

[17] CARRANZA J E, IIDA K, HAHN D W. Conditional data processing for single-shot spectral analysis by use of laser-induced breakdown spectroscopy[J]. Applied Optics, 42, 6022-6028(2003).

[18] DIAZ D, HAHN D W. Aerosol measurements with laser-induced breakdown spectroscopy and conditional analysis[J]. Spectrochimica Acta Part B： Atomic Spectroscopy, 179, 106107(2021).

[19] [19] 张子良， 提汝芳， 黄腾， 等. 气溶胶单粒子光谱的PLS聚类分析［J］. 量子电子学报， 2012， 29（1）： 106-113. doi: 10.3969/j.issn.1007-5461.2012.01.018ZHANGZ L， TIR F， HUANGT， et al. PLS cluster analysis of individual particle spectrum［J］. Chinese Journal of Quantum Electronics， 2012， 29（1）： 106-113.（in Chinese）. doi: 10.3969/j.issn.1007-5461.2012.01.018

[20] ZHENG J P, LU J D, ZHANG B et al. Experimental study of laser-induced breakdown spectroscopy （LIBS） for direct analysis of coal particle flow[J]. Applied Spectroscopy, 68, 672-679(2014).

[21] YIN W B, ZHANG L, DONG L et al. Design of a laser-induced breakdown spectroscopy system for on-line quality analysis of pulverized coal in power plants[J]. Applied Spectroscopy, 63, 865-872(2009).

[22] [22] 陈世和， 陆继东， 张博， 等. 激光诱导击穿光谱法测量煤粉流的控制因素［J］. 光学 精密工程， 2013， 21（7）：1651-1658. doi: 10.3788/ope.20132107.1651CHENSH H， LUJ D， ZHANGB， et al. Controllable factors in detection of pulverized coal flow with LIBS［J］. Opt. Precision Eng.， 2013， 21（7）：1651-1658.（in Chinese）. doi: 10.3788/ope.20132107.1651

[23] [23] 刘林美， 林兆祥， 龚顺生. 大气气溶胶有害成分的激光击穿光谱探测［J］. 量子电子学报， 2013， 30（2）：134-137. doi: 10.3969/j.issn.1007-5461.2013.02.002LIUL M， LINZH X， GONGSH SH. Detection of injurious ingredient in aerosol by laser-induced breakdown spectroscopy［J］. Chinese Journal of Quantum Electronics， 2013， 30（2）：134-137.（in Chinese）. doi: 10.3969/j.issn.1007-5461.2013.02.002

[24] CANTALOUB M G. Total Measurement Uncertainty (TMU) for Nondestructive Assay of Transuranic (TRU) Waste at the Waste Receiving and Processing Facility[report](2000).

[25] DIAZ D, HAHN D W, PANNE U[M]. LIBS for Aerosol Analysis, 499-535(2020).