| 光谱学与光谱分析 |
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| Application of the Racial Algorithm in Energy Dispersive X-Ray Fluorescence Overlapped Spectrum Analysis |
| ZENG Guo-qiang, LUO Yao-yao, GE Liang-quan*, ZHANG Qing-xian, GU Yi, CHENG Feng |
| Chengdu University of Technology, Chengdu 610059, China |
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Abstract In the energy dispersive X-ray fluorescence spectrum analysis, scintillation detector such as NaI (Tl) detector usually has a low energy resolution at around 8%. The low energy resolution causes problems in spectral data analysis especially in the high background and low counts condition, it is very limited to strip the overlapped spectrum, and the more overlapping the peaks are, the more difficult to peel the peaks, and the qualitative and quantitative analysis cant be carried out because we cant recognize the peak address and peak area. Based on genetic algorithm and immune algorithm, we build a new racial algorithm which uses the Euclidean distance as the judgment of evolution, the maximum relative error as the iterative criterion to be put into overlapped spectrum analysis, then we use the Gaussian function to simulate different overlapping degrees of the spectrum, and the racial algorithm is used in overlapped peak separation and full spectrum simulation, the peak address deviation is in ± 3 channels, the peak area deviation is no more than 5%, and it is proven that this method has a good effect in energy dispersive X-ray fluorescence overlapped spectrum analysis.
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Received: 2013-03-29
Accepted: 2013-07-08
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Corresponding Authors:
GE Liang-quan
E-mail: glq@cdut.edu.cn
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[1] YANG Tang-sheng, CHEN Wen-qing, ZHU Rui-geng(杨唐胜,陈文清,朱瑞赓). Journal of Wunan University of Technology(武汉理工大学学报),2005, 27(10): 106.
[2] HUANG Hong-quan, HE Zi-shu, FANG Fang, et al(黄洪全,何子述,方 方,等). Atomic Energy Science and Technology(原子能科学技术),2010, 44(9): 1114.
[3] HU Yao-gai, ZHANG Xiao-xing, ZHAO Zheng-yu, et al(胡耀垓,张晓星,赵正予,等). Journal of Chongqing University(重庆大学学报),2012, 35(5): 76.
[4] LIU Bao, FAN Xiao-ming, HUO Sheng-nan, et al(刘 宝,范晓明,霍胜楠,等). Chinese Journal of Chromatography(色谱),2011, 29(12): 1194.
[5] WANG Yi,LI Qin,JIANG Xiao-guo(王 毅,李 勤,江孝国). Chinese Physics C(中国物理C),2012,36(9):861.
[6] SHI Ji-yong,ZOU Xiao-bo,ZHAO Jie-wen,et al(石吉勇,邹小波,赵杰文,等). J. Infrared Millim. Waves(红外与毫米波学报),2011,30(5):458.
[7] Li F, Gardner R P. Appl. Radiat. Isotopes, 2012, 70(7): 1243.
[8] Sabriye Seven. Radiation Physics and Chemistry, 2012, 81(5): 489.
[9] Angeyo K H, Gari S, Mustapha A O, et al. Applied Radiation and Isotopes, 2012, 70(11): 2596.
[10] Qiu Jingke, Deng Biao, Yang Qun, et al. Nuclear Instruments and Methods in Physics Research B, 2011, 269(22): 2662. |
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