Hostname: page-component-68945f75b7-4zrgc Total loading time: 0 Render date: 2024-08-06T00:58:54.386Z Has data issue: false hasContentIssue false
  • English
  • Français

Reply to Roberts et al. (1994) Optical Dating of Quartz: A Comment on Stokes and Gaylord (1993)

Published online by Cambridge University Press:  20 January 2017

Stephen Stokes  and
David R. Gaylord
Stephen Stokes
Affiliation:
Research Laboratory for Archaeology and the History of Art, and School of Geography, Oxford University, Oxford, England
David R. Gaylord
Affiliation:
Department of Geology, Washington State University, Pullman, Washington 99163
Get access Rights & Permissions [Opens in a new window]

Abstract

An abstract is not available for this content so a preview has been provided. Please use the Get access link above for information on how to access this content.
Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Letter to the Editor
Information
Quaternary Research , Volume 42 , Issue 1 , July 1994 , pp. 110 - 111
Copyright
University of Washington

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Brumby, S. (1992). Regression analysis of ESR/TL dose-response data. Nuclear Tracks and Radiation Measurements 20, 595599.Google Scholar
Bulur, E., and Ozer, A. Y. (1992). Comment on ‘A cautionary note: Apparent sensitivity change resulting from curve fitting’. Ancient TL 10, 1214.Google Scholar
Duller, G. A. T. (1992). “Luminescence Chronology of Raised Marine Terraces, Southwest North Island, New Zealand.” Unpublished Ph.D. thesis, University College of Wales, Aberystwyth.Google Scholar
Franklin, A. D., and Horn yak, W. F. (1990). Isolation of the rapidly bleaching peak in quartz TL glow curves. Ancient TL 8, 2931.Google Scholar
Gaylord, D. R. (1990). Holocene palaeoclimatic fluctuations revealed from dune and interdune strata in Wyoming. Journal of Arid Environments 18, 123138.Google Scholar
Griin, R. (1991). Potential and problems of ESR dating. Nuclear Tracks and Radiation Measurements 18(1/2), 143153.Google Scholar
Griin, R., and Rhodes, E. J. (1992). Simulation of saturating exponential ESR/TL dose response curves—weighting of intensity values by inverse variance. Ancient TL 10, 5056.Google Scholar
Griin, R., and MacDonald, P. D. M. (1989). Non-linear fitting of TL/ ESR dose response curves. Applied Radiation and Isotopes 40, 10771080.Google Scholar
Huntley, D. J. Hutton, J. T., and Prescott, J. R. (1993). The stranded beach-dune sequence of South-east South Australia: A test of thermoluminescence dating 0-800 ka. Quaternary Science Reviews 12(1), 120.Google Scholar
Levy, P. W. (1989). Principles determining the length of time materials can be dated by TL, ESR and other trapped charge build-up methods. In “Proceedings of a Workshop on Long and Short Range Limits in Luminescence Dating.” Oxford RLAHA Occasional Publication No. 9.Google Scholar
Li, S-H. (1991). A cautionary note: Apparent sensitivity change resulting from curve fitting. Ancient TL 9, 1213.Google Scholar
Rhodes, E. J. (1990). “Optical Dating of Sediment.” Unpublished D. Phil thesis, Oxford University.Google Scholar
Roberts, R. G. Spooner, N. A., and Questiaux, D. G. (1994). Optical dating of quartz: A comment on Stokes and Gaylord (1993). Quaternary Research 42, 108109.Google Scholar
Sanzelle, S. Fain, J. Miallier, D. Montret, M., and Pilleyre, Th. (1993). Exponential regression for TL/ESR using regenerated dose response curves. Ancient TL 11, 614.Google Scholar
Smith, B. W. Rhodes, E. J. Stokes, S. Spooner, N. A., and Aitken, M. J. (1990). The optical dating of sediments: Initial results from Oxford. Archaeometry 32, 1931.Google Scholar
Stokes, S. (in press). The timing of OSL sensitivity changes in a natural quartz. Radiation Measurements. Google Scholar
Stokes, S., and Gaylord, D. R. (1993). Optical dating of Holocene dune sands in the Ferris dune field, Wyoming, Quaternary Research 39, 274281.Google Scholar