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In defence of the external detector method of fission track dating

Published online by Cambridge University Press:  01 May 2009

P. F. Green
P. F. Green
Affiliation:
Department of Geology, University of MelbourneParkville, Victoria 3052, Australia
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Abstract

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Type
Correspondence
Information
Geological Magazine , Volume 122 , Issue 1 , January 1985 , pp. 73 - 75
Copyright
Copyright © Cambridge University Press 1985

References

Galbraith, R. F. 1981. On statistical models of fission track counts. Journal of the International Association for Mathematical Geology 13, 471–8.CrossRefGoogle Scholar
Gale, N. H. & Beckinsale, R. D. 1983. Comments on the paper ‘Fission-track dating of British Ordovician and Silurian stratotypes’ by R. J. Ross and others. Geological Magazine 120, 295302.CrossRefGoogle Scholar
Gleadow, A. J. W. 1980. Fission track age of the KBS Tuff and associated hominid remains in northern Kenya. Nature 284, 225–30.CrossRefGoogle Scholar
Gleadow, A. J. W. 1981. Fission track dating methods: what are the real alternatives? Nuclear Tracks 5, 314.CrossRefGoogle Scholar
Gleadow, A. J. W. & Lovering, J. F. 1977. Geometry factor for external detectors in fission track dating. Nuclear Tracks 1, 99106.CrossRefGoogle Scholar
Green, P. F. 1981. A new look at statistics in fission track dating. Nuclear Tracks 5, 7786.CrossRefGoogle Scholar
Green, P. F. & Durrani, S. A. 1978. A quantitative assessment of geometry factors for use in fission track studies. Nuclear Tracks 2, 207–14.CrossRefGoogle Scholar
Harland, W. B. 1983. More time scales. Geological Magazine 120, 393400.CrossRefGoogle Scholar
Hurford, A. J. & Green, P. F. 1982. A users' guide to fission track dating calibration. Earth and Planetary Science Letters 59, 343–54.CrossRefGoogle Scholar
Hurford, A. J. & Green, P. F. 1983. The zeta age calibration of fission track dating. Isotope Geoscience 1, 285317.Google Scholar
Johnson, N. M., McGee, V. E. & Naeser, C. W. 1979. A practical method of estimating standard error of age in the fission track dating method. Nuclear Tracks 3, 93–9.CrossRefGoogle Scholar
McDoucall, I., Maier, R., Sutherland-Hawkes, P. & Gleadow, A. J. W. 1980. K-Ar age estimate for the KBS Tuff, East Turkana, Kenya. Nature 284, 230–4.CrossRefGoogle Scholar
Naeser, C. W., Izett, G. A. & Obradovich, J. D. 1980. Fission-track and K-Ar ages of natural glasses. United States Geological Survey Bulletin no. 1489.Google Scholar
Reimer, G. M., Storzer, D. & Wagner, G. A. 1970. Geometry factor in fission track counting. Earth and Planetary Science Letters 9, 401–4.CrossRefGoogle Scholar
Ross, R. J., Naeser, C. W., Izett, G. A., Obradovich, J. D., Bassett, M. G., Hughes, C. P., Cocks, L. R. M., Dean, W. T., Ingham, J. K., Jenkins, C. J., Rickards, R. B., Sheldon, P. R., Toghill, P., Whittington, H. B. & Zalasiewicz, J. 1982. Fission track dating of British Ordovician and Silurian stratotypes. Geological Magazine 119, 135–53.CrossRefGoogle Scholar
Storzer, D. & Wagner, G. A. 1982. The application of fission track dating in stratigraphy: a critical review. In Numerical Dating in Stratigraphy (ed. Odin, G. S.), pp. 199224. Chichester: Wiley.Google Scholar