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New Analysis of ESR Spectra of Fossil Tooth Enamel

Published online by Cambridge University Press:  22 December 2008

Martin Jonas
Affiliation:
Cavendish LaboratoryDepartment of PhysicsUniversity of CambridgeMadingley Road Cambridge CB3 OHE
Li Ping Zhoua
Affiliation:
McDonald Institute for Archaeological Research62 Sidney Street Cambridge CB2 3JW
Elisabeth Marseglia
Affiliation:
Cavendish LaboratoryDepartment of PhysicsUniversity of CambridgeMadingley Road Cambridge CB3 OHE
Paul Mellars
Affiliation:
Department of ArchaeologyUniversity of CambridgeDowning Street Cambridge CB2 3DZ

Abstract

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Type
Shorter Notes
Copyright
Copyright © The McDonald Institute for Archaeological Research 1994

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References

Cevc, G., Cevc, P., Schara, M. & Skaleric, V., 1980. The caries resistance of human teeth is determined by the spatial arrangement of hydroxyapatite microcrystals in the enamel. Nature 286, 425–6.CrossRefGoogle ScholarPubMed
Cullens, F.J., Verbeeck, R.M.H., Matthys, P.F.A., Martens, L.C. & Boesman, E.R., 1987. The contribution of CO33-and CO2- to the ESR spectrum near g=2 of powdered human tooth enamel. Calcified Tissue International 41, 124–9.CrossRefGoogle Scholar
Grün, R., 1989. Electron spin resonance (ESR) dating. Quaternary International 1, 65109.CrossRefGoogle Scholar
Grün, R. & Stringer, C.B., 1991. Electron spin resonance dating and the evolution of modern humans. Archaeometry 33, 153–99.CrossRefGoogle Scholar
Grün, R., Schwarcz, H.P. & Zymeta, S., 1987. Electron spin resonance dating of tooth enamel. Canadian Journal of Earth Sciences 24, 1022–37.CrossRefGoogle Scholar
Henning, G.J. & Grün, R., 1983. ESR dating in Quaternary geology. Quaternary Science Reviews 2, 157238.CrossRefGoogle Scholar
Ikeya, M., 1978. Electron spin resonance as a method of dating. Archaeometry 20, 147–58.CrossRefGoogle Scholar
Ikeya, M., 1986. Electron spin resonance, in Dating and Age Determination of Biological Materials, eds. Zimmerman, M.R. & Angel, L.. London: Croom Helm, 59125.Google Scholar
Mellars, P. & Grün, R., 1991. A comparison of the electron spin resonance and thermoluminescence dating methods: the results of ESR dating at Le Moustier (France). Cambridge Archaeological Journal 2(2), 269–76.CrossRefGoogle Scholar
Porat, N. & Schwarcz, H.P., in press. ESR dating of tooth enamel: a universal growth curve, in Integrative Paths to the Past, eds. Corrucini, R. & Ciohon, R.. (FC. Howell Festschrift.) New York (NY): Prentice-Hall.Google Scholar
Press, W.H., Flannery, B.P., Teukolsky, S.A. & Vetterling, W.T., 1989. Numerical Recipes in Pascal - The Art of Scientific Computing. Cambridge: Cambridge University Press.Google Scholar
Rhodes, E.J. & Grün, R., 1991. ESR behaviour of the paramagnetic centre at g=2.0018 in tooth enamel. Ancient TL 9(2), 14–8.Google Scholar
Schwarcz, H.P., 1985. ESR studies of tooth enamel. Nuclear Tracks and Radiation Measurements 10, 865–7.CrossRefGoogle Scholar