| 光谱学与光谱分析 |
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| Study on Stray Light in Self-Reversal Background Correction for Atomic Absorption Spectrometry——The Properties of Stray Light and Its Influence on Background Correction |
| LIU Yao-han1,LIU Zhi-gao1,ZHOU Zhi1,WANG Wei1,ZHAO Yong-qiang1,SONG Jun2 |
1. Shanghai Spectrum Instruments Limited Company, Shanghai 200233, China
2. The Station of Technology Promotion, Bureau of Hebei Forestry, Shijiazhuang 050081, China |
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Abstract In self-reversal background correction the particularity of stray light that is not absorbed by the sample matrix is different from that in deuterium lamp and Zeeman background correction. The stray light is evaluated using the cut-off solution method and its effects were studied by means of simulation background absorption using potassium dichromate solution molecular absorption. Experiments confirmed that the stray light due to light source for the sample beam (Conventional pulse, low Current) and reference beam (narrow pulse, high current) is obviously different, with the former being higher than the latter. Therefore, the difference is an important source in self-reversal background correction errors and the errors can not be ignored in high background correction. The present paper also showed the relationships among stray light and lamp current, light energy, and spectral bandwidth. The results show that the ratio of stray light is much related to the lamp current,and the larger the lamp current, the smaller the ratio of stray light. The ratio of stray light that changes with lamp current is not directly related to the energy of analytical line. Stray light ratio decreases with the decrease in spectral bandwidth and its character is similar to continuous spectrum.
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Received: 2007-10-02
Accepted: 2008-01-08
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Corresponding Authors:
LIU Yao-han
E-mail: liuyh401302@sina.com
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[1] LIU Yao-han, ZHANG Xiao-shu(刘瑶函, 张小舒). 应用高强度的空心阴极作为原子吸收背景校正的一种新方法,全国冶金地质第二届原子吸收光谱经验交流会大会报告(桂林),1978年2月.
[2] HE Chang-yi, YANG Chun-kai(何长一, 杨春楷). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 1981, 1(5): 53.
[3] Smith S B, Schleicher R G,Hieftje G M. New Atomic Absorption Background Correction Technique, the 33rd Pittsburgh Conference on Analytical Chemistry and Applied Spectroscopy, No. 442, Atlantic City, NJ March, 1982.
[4] Smith S B,Hieftje G M. Appl. Spectrosc.,1983, 37, 419.
[5] LIU Yao-han, ZHANG Xiao-shu(刘瑶函, 张小舒). Chinese Journal of Spectroscopy Laboratory(光谱实验室),1986, 3(4):126.
[6] Sotera J J,Kahn H L. American Laboratory, Novermber, 1982, A. I. D. 193D.
[7] HE Hua-kun, YANG Xiao-tao, PENG Run-zhong(何华焜,杨啸涛,彭润中). Chinese Journal of Analytical Chemistry(分析化学),1988,16(5):472.
[8] Van der Lee J J, Temminghoff E, Houba V J G et al. Applied Spectrroscopy, 1987, 41(3):388.
[9] Zhou YING,Parsons P J, Aldous K M, et al. J. Anal. At. Spectrom., 2001, 16:82.
[10] MO Wen-sheng, XIAO Yong-ping(莫文生,肖永平). Guangxi Chemical Industry(广西化工),1993,22(3):43.
[11] HAN Chang-xiu, FENG Shang cai, LI Chang-bing(韩长秀,冯尚彩,李长兵). Journal of Linyi Teachers’ College(临沂师范学院学报),2002,24(3):37.
[12] de Galan L,de Loos-Vollebregt M T C. Spectrochim. Acta, 1984, 39B:1011.
[13] de Loos-Vollebregt M T C,de Galan L. Spectrochim. Acta, 1986, 41B:597.
[14] Larkins P L. Spectrochim. Acta, 1988, 43B:1175.
[15] James D Ingle, Jr Stanley R Crouch. Spectrochemical Analysis(光谱化学分析). Translated by ZHANG Han-qi, WANG Fen-di, SHI Wen(张寒琦,王芬蒂,施 文,译). Changchun: Jilin University Press(长春:吉林大学出版社),1996. 314, 401.
[16] YANG Xiao-tao, HE Hua-kun, PENG Yun-zhong, et al(杨啸涛,何华焜,彭润中,等). Background Absorption and Correction in Atomic Absorption Spectroscopy(原子吸收中的背景吸收及其校正). Beijing: Peking University Press(北京:北京大学出版社), 1989. 126. |
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