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Technological Applications of Ion Tracks in Insulators

Published online by Cambridge University Press:  29 November 2013

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Extract

Natural nuclear tracks in solids have existed since close to the beginning of the solar system, billions of years ago. Only during the last few decades have we learned how to employ tracks practically. Uses now range from radiation dosimetry to microchemical analysis, virus counting, oil and uranium exploration, and aiding earthquake prediction. The key to these applications is track etching, which in insulators allows tracks to be revealed simply and then enlarged. Etching also makes it possible to produce minute holes with clean, geometric shapes.

Type
Ion Tracks in Solids
Copyright
Copyright © Materials Research Society 1995

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References

1.Young, D.A., Nature 182 (1958) p. 375.CrossRefGoogle Scholar
2.Price, P.B. and Walker, R.M., J. Appl. Phys. 33 (1962) p. 2625.CrossRefGoogle Scholar
3.Fleischer, R.L., Price, P.B., and Walker, R.M., Nuclear Tracks in Solids (University of California Press, Berkeley, 1975).CrossRefGoogle Scholar
4.Fleischer, R.L. and Price, P.B., Science 140 (1963) p. 1221.CrossRefGoogle Scholar
5.Fleischer, R.L., Price, P.B., and Symes, E.M., Science 143 (1964) p. 249.CrossRefGoogle Scholar
6.DeBlois, R.W., Bean, C.P., and Wesley, R.K.A., J. Colloid interface Sci. 61 (1977) p. 323.CrossRefGoogle Scholar
7.DeBlois, R.W., Biophys. J. 24 (1978) p. 149a.Google Scholar
8.DeBlois, R.W. and Bean, C.P., Rev. Sci. Instrum. 41 (1970) p. 909.CrossRefGoogle Scholar
9.Price, P.B. and Walker, R.M., J. Geophys. Res. 68 (1963) p. 4847.CrossRefGoogle Scholar
10.Fleischer, R.L. and Price, P.B., Geochim. Cosmochim. Acta 28 (1964) p. 755.CrossRefGoogle Scholar
11.Fleischer, R.L. and Price, P.B., J. Geophys. Res. 69 (1964) p. 331.CrossRefGoogle Scholar
12.Calk, L.C. and Naeser, C.W., J. Geol. 81 (1973) p. 189.CrossRefGoogle Scholar
13.Prevo, P.R., Dahl, R.E., and Yoshikawa, H.H., J. Appl. Phys. 35 (1964) p. 2636.CrossRefGoogle Scholar
14.Fleischer, R.L., in Radiation Research, Biomedical, Chemical and Physical Perspectives, edited by Nygaard, O.F., Adler, H.I., and Sinclair, W.K. (Academic Press, New York, 1975) p. 570.Google Scholar
15.Fleischer, R.L., Hart, H.R. Jr., Cornstock, G.M., Carter, M., and Renshaw, A., Science 181 (1973) p. 436.CrossRefGoogle Scholar
16.Cartwright, B.G., Shirk, E.K., and Price, P.B., Nucl. Instrum. Methods 153 (1978) p. 457.CrossRefGoogle Scholar
17.Jee, W.S.S., in Radiobiology of Plutonium, edited by Stover, B.J. and Jee, W.S.S. (Press, J.W., Salt Lake City, 1972) p. 171.Google Scholar
18.Gomez, M., ed., Radiation Hazards in Mining (American Institute of Mining, Metal, and Petroleum Engineering, New York, 1981).Google Scholar
19.Fleischer, R.L. and Mogro-Campero, A., J. Geophys. Res. 83 (1978) p. 3539.CrossRefGoogle Scholar
20.Fleischer, R.L., Health Physics 52 (1987) p. 219.Google Scholar
21.Samuelsson, C., Nature 334 (1988) p. 338.CrossRefGoogle Scholar
22.Lively, R.S. and Steck, D.J., Health Physics 64 (1993) p. 485.CrossRefGoogle Scholar
23.Fleischer, R.L. and Mogro-Campero, A., J. Geophys. Lett. 6 (1979) p. 361.CrossRefGoogle Scholar
24.Fleischer, R.L., Nucl. Tracks Radiat. Meas. 14 (1988) p. 421.CrossRefGoogle Scholar
25.Fleischer, R.L. and Turner, L.G., Geophysics 49 (1984) p. 810.CrossRefGoogle Scholar
26.Fleischer, R.L., Geophys. Res. Lett. 8 (1981) p. 477.CrossRefGoogle Scholar
27.Dobrovolsky, I.P., Zubkov, S.I., and Miachkin, V.I., Pure and Appl. Geophys. 117 (1979) p. 1025.CrossRefGoogle Scholar
28.Kristiansson, K., Lindkvist, B., and Gustafson, T., Ornis Scand. 8 (1977) p. 78.CrossRefGoogle Scholar
29.Gustafson, T., Lindkvist, B., Gotborn, L., and Gyllin, R., Ornis Scand. 8 (1977) p. 87.CrossRefGoogle Scholar
30.Fleischer, R.L., Alter, H.W., Furman, S.C., Price, P.B., and Walker, R.M., Science 178 (1972) p. 255.CrossRefGoogle Scholar
31.Spohr, R., Ion Tracks and Microtechnology (F. Vieweg and Son, Braunschweig, 1990).CrossRefGoogle Scholar