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Micro-PIXE as a Technique for Multi-elemental Detection and Localization in Various Atmospheric Environmental Samples  

Ma, Chang-Jin (Department of Environmental Science, Fukuoka Women's University)
Choi, Sung-Boo (Department of Environment, Yong In University)
Publication Information
Journal of Korean Society for Atmospheric Environment / v.24, no.E1, 2008 , pp. 54-62 More about this Journal
Abstract
Microbeam PIXE, often called micro-PIXE, is one of powerful tools for analyzing a wide range of elements for various samples. Moreover, it has important applications of interest to the atmospheric science. In the present study, a qualitative elemental imagination for various atmospheric environmental species was attempted using micro-PIXE. Especially, in combination with a novel individual droplet collection method and the micro-PIXE analytical technique, the chemical specification of various individual atmospheric samples could be carried out. Here, we briefly introduce the results of an application of micro-PIXE to the study of atmospheric environment. The detailed spatial resolution of multiple elements for various samples like individual ambient particles, individual raindrops, individual fog droplets, and individual snow crystals could be successfully achieved by scanning 2.6 MeV $H^+$ micro beam ($1{\sim}2{\mu}m$) accelerated by 3 MeV single-end accelerator.
Keywords
Micro-PIXE; Individual particles; Individual raindrop; Individual fog droplet; Individual snow crystals; Replication;
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Times Cited By KSCI : 1  (Citation Analysis)
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1 Knutson, E.O., S.K. Sood, and J.D. Stockham (1975) Aerosol collection by snow and ice crystals, Atmospheric Environment, 10, 395-402
2 Mitra, S.K., U. Barth, and H.R. Pruppacher (1990) A laboratory study of the efficiency with which aerosol particles are scavenged by snowflakes, Atmospheric Environment, 24A, 1247-1254   DOI   ScienceOn
3 Ma, C.J., M. Kasahara, S. Tohno, and K.C. Hwang (2001b) Characterization of the winter atmospheric aerosols in Kyoto and Seoul using PIXE, EAS and IC, Atmospheric Environment, 35, 747-752   DOI   ScienceOn
4 Sakai, T., T. Hamano, T. Kamiya, K. Murozono, J. Inoue, S. Matsuyama, S. Iwasaki, and K. Ishii (1998) Development of a fast multi-parameter data acquisition system for microbeam analyses, Nuclear Instruments and Methods in Physics Research B, 136, 390-394   DOI   ScienceOn
5 Kasahara, M., J.H. Park, and S. Chatani (1996) Size distribution and solubility of 15 elements in atmospheric aerosols, International Journal of PIXE, 6, 299-310   DOI   ScienceOn
6 Pandis, S.N. and J.H. Seinfeld (1989) Sensitivity analysis of a chemical mechanism for aqueous phase atmospheric chemistry, Journal of Geophysical Research, 94, 105-1126
7 Cornille, P. and W. Maenhaut (1990) Sources and characteristics of the atmospheric aerosol near Damascus, Syria, Atmospheric Environment, 24A, 1083-1093   DOI   ScienceOn
8 Scheff, P.A. and C. Valiozis (1990) Characterization and source identification of respirable particulate matter in Athens, Greece, Atmospheric Environment, 24A, 203-211   DOI   ScienceOn
9 Park, J.H., J.M. Suh, and K.C. Choi (2001) Characterization of size distribution and water solubility of 15 elements in atmospheric aerosols, Journal of Korean Society for Atmospheric Environment, 17(E1), 1-7
10 Kasahara, M., C.J. Ma, T. Kamiya, and T. Sakai (2000) Preliminary studies on applications of micro- PIXE to atmospheric aerosols, Nuclear Instruments and Methods in Physics Research B, 181, 622-627   DOI   ScienceOn
11 Murakami, M., C. Hiramatsu, and C. Magono (1981) Observation of aerosol scavenging by falling snow crystals at two sites of different heights, Journal of the Meteorological Society of Japan, 59, 763-771   DOI
12 Ma, C.-J., K.H. Hwang, G.U. Kang, S. Tohno (2004) Chemical composition of the size-resolved particles in Buk-Ak tunnel, Journal of Korean Society for Atmospheric Environment, 20(E2), 53-59
13 Ma, C.J., M. Kasahara, R. Höller, and T. Kamiya (2001a) Characteristics of single particles sampled in Japan during the Asian dust-storm period, Atmospheric Environment, 35, 2707-2714   DOI   ScienceOn