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Quartz TL dating on selected layers from archaeometallurgical kiln fragments: a proposed procedure to overcome age dispersion

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
TL dating of archaeometallurgical kiln remains provides information about the chronological period of the corresponding activities. Due to the high temperature this material has usually been subjected to, changes in the TL sensitivity of the quartz grains and also indications of mineralogical alterations, can be present. The study provides absolute ages for kiln assemblages from two prehistoric sites on the island of Seriphos (Cyclades, Greece). Additionally, as the study highlights sources of potential errors, a methodological approach for luminescence dating of similar material is presented.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
29--35
Opis fizyczny
Bibliogr. 20 poz., rys., tab.
Twórcy
autor
autor
  • Laboratory of Archaeometry, Institute of Materials Science, N.C.S.R. Demokritos, 15 310 Ag. Paraskevi, Attiki, Greece, zacharias@ims.demokritos.gr
Bibliografia
  • Bøtter-Jensen L., Agersnap Larsen N., Mejdahl V., Poolton N.R.J., Morris M.F. and McKeever S.W.S., 1995: Luminescence sensitivity changes in quartz as a result of annealing. Radiation Measurements 24: 535-541.
  • Buxeda i Garrigós J., Kilikoglou V. and Day P.M., 2001: Chemical and mineralogical alteration of ceramics from a Late Bronze Age kiln at Kommos, Crete: the effect on the formation of a reference group. Archaeometry 43: 349-371.
  • Elitzsch C., Pernicka E. and Wagner G.A., 1983: Thermoluminescence dating of archaeometallurgical slags. PACT 9: 271-286.
  • Freestone I. C., 1989: Refractory materials and their procurement. In: A. Hauptmann, E. Pernicka, and G. A. Wagner, eds, Old World Archaeometallurgy (Der Anschnitt, Beiheft 7), Bochum: Deutsches Bergbau-Museum:155-162.
  • Gautier A., 2001: Luminescence dating of archaeometallurgical slag: use of the SAR technique for determination of the burial dose. Quaternary Science Reviews 20: 973-980.
  • Godfrey-Smith D.I. and Casey J.L., 2003: Direct thermoluminescence chronology for Early Iron Age smelting technology on the Gambaga Escarpment, Ghana. Journal of Archaeological Science 30: 1037-1050.
  • Godfrey-Smith D.I., 1994: Thermal effects in the optically stimulated luminescence of quartz and mixed feldspars from sediments. Journal of Physics 27: 1737-1746.
  • Georgakopoulou M., 2005: Technology and Organisation of Early Cycladic Metallurgy: Copper on Seriphos and Keros, Greece. Unpublished PhD thesis. Institute of Archaeology, Univerity College London.
  • Haustein M., Roewer G., Krbetschek M.R. and Pernicka E., 2003: Dating of archaeometallurgical slags using thermoluminescence. Archaeometry 45: 519-530.
  • Hein A., Tsolakidou A., Iliopoulos I., Mommsen H., Buxeda i Garrigós J., Montana G. and Kilikoglou V., 2002: Standardisation of elemental analytical techniques applied to provenance studies of archaeological ceramics: an inter laboratory calibration study. Analyst 127: 542-553.
  • Krbetschek M.R., Götze J., Dietrich A. and Trautmann T., 1997: Spectral information from minerals relevant for luminescence dating. Radiation Measurements 27: 695-748.
  • de Lima J.F., Navarro M.S. and Valerio M.E.G., 2002: Effects of thermal treatment on the TL emission of natural quartz. Radiation Measurements 35: 155-159.
  • Michael C.T., Zacharias N., Dimotikali D. and Maniatis Y., 1997: A new technique for measuring the natural dose in TL dating and its application in the dating of a mortar containing ceramic grains. Ancient TL 15: 36-42.
  • Michael C.T. and Zacharias N., 2000: A new technique for thicksource alpha counting determination of U and Th. Nuclear Instruments and Methods 439.1: 167-177.
  • Picon M., 1976: Remarques preliminaries sur deux types d’altération de la composition chimique des céramiques au cours du temps (Preliminary remarks on two types of alteration from ceramic chemical compositions over time). Figlina 1: 159-166 (in French).
  • Rendell H.M., Townsend P.D., Wood R.A. and Luff B.J., 1994: Thermal treatments and emission spectra of TL from quartz. Radiation Measurements 23: 441-449.
  • Schwedt A., Mommsen H. and Zacharias N., 2004: Post-depositional elemental alterations in pottery: Neutron Activation Analysis of surface samples. Archaeometry 46(1): 85–101.
  • Tite M.S. and Maniatis Y., 1975: Examination of ancient pottery using the scanning electron microscope. Nature 257: 122-123.
  • Zacharias N., Mauz B. and Michael C.T., 2002: Luminescence quartz dating of lime mortars. A first research approach. Radiation Protection Dosimetry 101: 379-382.
  • Zacharias N., Buxeda i Garrigos J., Mommsen H., Schwedt, A. And Kilikoglou V., 2005: Implications of burial alterations on luminescence dating of archaeological ceramics. Journal of Archaeological Science 32(1): 49-57.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAT3-0040-0014
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