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The application of Thermally (TL) and Optically (OSL) Stimulated Luminescence on bricks used as building material has allowed solving an chronological issue in the field of historical building dating. The possibility to use one or more methodologies of dating is closely related to the luminescent and granulometric characteristics of the sample. Using some brick samples collected in the church of Sain Seurin in Bordeaux (France), this paper discusses the implications and the possibility to use different approaches and techniques for dating. With this aim luminescence measurements were performed on both polymineral fine grain and quartz inclusion phases extracted from each brick. For Equivalent Dose (ED) and consequently age determination, TL on mixed fine grain fraction (FG), OSL on quartz inclusions (QI) and on mixed fine grain (FG*) fraction, were used. The results obtained suggest the advantage of using OSL technique on fine grain fraction cleaned up by IR stimulation (FG*), but the use of quartz inclusion represents indeed a good alternative.
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Czasopismo
Rocznik
Tom
Strony
256--264
Opis fizyczny
Bibliogr. 37 poz., tab., wykr.
Twórcy
autor
- PH3DRA Laboratories (PHysics for Dating Diagnostic Dosimetry Research and Applications), Dipartimento di Fisica e Astronomia, Università di Catania & INFN Sezione di Catania, via Santa Sofia 64, 95123 Catania, Italy
autor
- PH3DRA Laboratories (PHysics for Dating Diagnostic Dosimetry Research and Applications), Dipartimento di Fisica e Astronomia, Università di Catania & INFN Sezione di Catania, via Santa Sofia 64, 95123 Catania, Italy
- Laboratorio di Fisica e Tecnologie relative – UniNetLab, Dipartimento di Fisica e Chimica, Università degli Studi di Palermo, Viale delle Scienze, Edificio 18, 90128 Palermo, Italy
autor
- PH3DRA Laboratories (PHysics for Dating Diagnostic Dosimetry Research and Applications), Dipartimento di Fisica e Astronomia, Università di Catania & INFN Sezione di Catania, via Santa Sofia 64, 95123 Catania, Italy
autor
- PH3DRA Laboratories (PHysics for Dating Diagnostic Dosimetry Research and Applications), Dipartimento di Fisica e Astronomia, Università di Catania & INFN Sezione di Catania, via Santa Sofia 64, 95123 Catania, Italy
Bibliografia
- 1.Abrahamsen N, Jacobsen U, Mejdahl V and Mejdahl U, 1998. Magnetic investigations and datings of a brick kiln at Veldbaek near Esbjerg (Denmark). Physics and Chemistry of the Earth 23(9–10): 1015–1019, DOI 10.1016/S0079-1946(98)00135-9
- 2.Aitken MJ, 1985. Thermoluminescence Dating. Academic Press, London, 359 pp.
- 3.Aitken MJ, 1998. An introduction to Optical Dating. The Dating of Quaternary Sediments by the Use of Photon Stimulated Luminescence. Oxford Science Publications, Oxford, 267 pp.
- 4.Bailiff IK and Holland N, 2000. Dating bricks of the last two millennia from Newcastle upon Tyne: a preliminary study. Radiation Measurements 32(5–6): 615–619, DOI 10.1016/S1350-4487(99)00286-3.
- 5.Bailiff IK, 2007. Methodological developments in the luminescence dating of brick from English late-medieval and post-medieval buildings. Archaeometry 49(4): 827–851, DOI 10.1111/j.1475-4754.2007.00338.x.
- 6.Bøtter-Jensen MJ, Bulur E, Duller GAT and Murray AS, 2000. Advances in luminescence instrument systems. Radiation Measurements 32(5–6): 523–528, DOI 10.1016/S1350-4487(00)00039-1.
- 7.Bøtter-Jensen MJ, 1997. Luminescence techniques: instrumentation and methods. Radiation Measurements 27(5–6): 749–768, DOI 10.1016/S1350-4487(97)00206-0.
- 8.Cechák T, Gerndt J, Kubelík M, Musílek L and Pavlík M, 2000. Radiation methods in research of ancient monuments. Applied Radiation and Isotopes 53(4–5): 565–570, DOI 10.1016/S0969-8043(00)00221-9.
- 9.Duller GAT, 2007. Assessing the error on equivalent dose estimates derived from single aliquot regenerative dose measurements. Ancient TL 25: 15–24.
- 10.Feathers JK, Johnson J and Kembel SR, 2008. Luminescence Dating of Monumental Stone Architecture at Chavìn De Huántad, Perú. Journal of Archaelogical Method and Theory 15(3): 266–296, DOI 10.1007/s10816-008-9053-9.
- 11.Goedicke C, Slusallek K and Kubelik M, 1981. Thermoluminescence dating in architectural history: Venetian villas. Journal of the Society of Architectural Historians 40(3): 203–217, DOI 10.2307/989694.
- 12.Göksu HY and Schwenk P, 2001. Investigation of the thermal stability of the 210°C TL peak of quartz and dating the components of ter-razzo from the monastery church of Tergnsee. Radiation Measurements 33(5): 785–792, DOI 10.1016/S1350-4487(01)00107-X.
- 13.Gueli AM, Stella G, Troja SO, Burrafato G, Margani G and Zuccarello AR, 2009. Absolute dating of the Cuba of Santa Domenica (Messina, Italy). Il Nuovo Cimento B 124(8): 885–891, DOI 10.1393/ncb/i2010-10818-2.
- 14.Gueli AM, Stella G, Troja SO, Burrafato G, Fontana D, Ristuccia GM and Zuccarello AR, 2010. Historical buildings: Luminescence dating of fine grains from bricks and mortar. Il Nuovo Cimento B 125(5–6): 719–729, DOI 10.1393/ncb/i2010-10892-4.
- 15.Guérin G, Mercier N and Adamiec G, 2011. Doserate conversion factors: update. Ancient TL 29: 5–8.
- 16.Guibert P, Vartanian E, Betchel F and Schvoerer M, 1996. Non linear approach of TL response to dose: polynomial approximation. Ancient TL 14(2): 7–14.
- 17.Guibert P, Bailiff IK, Blain S, Gueli AM, Martini M, Sibilia E, Stella G, Troja SO, 2009. Luminescence dating of architectural ceramics from an early medieval abbey: The St Philbert Intercomparison (Loire Atlantique, France). Radiation Measurements 44(5–6): 488–493, DOI 10.1016/j.radmeas.2009.06.006.
- 18.Hütt G, Göksu HY, Jaek I and Hiekkanen M, 2001. Luminescence dating of Somero sacristy, SW Finland using the 210°C TL peak in quartz. Quaternary Science Reviews 20(5–9): 773–777, DOI 10.1016/S0277-3791(00)00017-2.
- 19.Kiyak NG and Canel T, 2006. Equivalent dose in quartz from young samples using the SAR protocol and the effect of preheat temperature. Radiation Measurements 41(7–8): 917–922, DOI 10.1016/j.radmeas.2006.04.006.
- 20.Kim JC, Roberts HM, Duller GAT, Lee YI, Yi SB, 2009. Assessment of diagnostic tests for evaluating the reliability of SAR De values from polymineral and quartz fine grains. Radiation Measurements 44(2): 149–157, DOI 10.1016/j.radmeas.2009.01.003.
- 21.Martini M and Sibilia E, 2001. Radiation in archaeometry: archaeological dating. Radiation Physics and Chemistry 61(3–6): 241–246, DOI 10.1016/S0969-806X(01)00247-X.
- 22.Mauz B and Lang A, 2004. Removal of the feldspar-derived luminescence component from polymineral fine silt samples for optical da-ting applications: evaluation of chemical treatment protocols and quality control procedures. Ancient TL 22(1): 1–8.
- 23.Mejdahl V, 1979. Thermoluminescence dating: beta-dose attenuation in quartz grains. Archaeometry 21(1): 61–72, DOI 10.1111/j.1475-4754.1979.tb00241.x.
- 24.Murray AS and Wintle AG, 2000. Luminescence dating of quartz using an improved single-aliquot regenerative-dose protocol. Radiatiation Measurements 32(1): 57–73, DOI 10.1016/S1350-4487(99)00253-X.
- 25.Murray AS and Clemmensen LB, 2001. Luminescence dating of Holocene aeolian sand movement,Thy, Denmark. Quaternary Science Reviews 20(5–9): 751–754, DOI 10.1016/S0277-3791(00)00061-5.
- 26.Murray AS and Wintle AG, 2003. The single aliquot regenerative dose protocol: potential for improvements in reliability. Radiation Measurements 37(4–5): 377–381, DOI 10.1016/S1350-4487(03)00053-2.
- 27.Prasad S, 2000. HF treatment for the isolation of fine grain quartz for luminescence dating. Ancient TL 18(1): 15–17.
- 28.Prescott JR and Hutton JT, 1988. Cosmic ray and gamma ray dose dosimetry for TL and ESR. Nuclear Tracks and Radiation Measurements 14(1–2): 223–235, DOI 10.1016/1359-0189(88)90069-6.
- 29.Ramzaev V, Bøtter-Jensen L, Thomsen KJ, Andersson KG and Murray AS, 2008. An assessment of cumulative external doses from Chernobyl fallout for a forested area in Russia using the optically stimulated luminescence from quartz inclusions in bricks. Journal of Environmental Radioactivity 99(7): 1154–1164, DOI 10.1016/j.jenvrad.2008.01.014.
- 30.Rhodes EJ, 2000. Observations of thermal transfer OSL signals in glacigenic quartz. Radiation Measurements 32(5–6): 595–602, DOI 10.1016/S1350-4487(00)00125-6.
- 31.Roberts HM and Wintle AG, 2001. Equivalent dose determinations for polymineralic fine-grains using the SAR protocol: application to a Holocene sequence of the Chinese Loess Plateau. Quaternary Science Reviews 20(5–9): 859–863, DOI 10.1016/S0277-3791(00)00051-2.
- 32.Roberts HM, 2007. Assessing the effectiveness of the double-SAR protocol in isolating a luminescence signal dominated by quartz. Radiation Measurements 42(10): 1627–1636, DOI 10.1016/j.radmeas.2007.09.010.
- 33.Stella G, Fontana D, Gueli AM and Troja SO, 2013. Historical mortars dating from OSL signals of fine grain fraction enriched in quartz. Geochronometria 40(3): 153–164, DOI 10.2478/s13386-013-0107-8.
- 34.Wallinga J, Murray AS, Duller GAT and Törnqvist TE, 2001. Testing optically stimulated luminescence dating of sand-sized quartz and feldspar from fluvial deposits. Earth and Planetary Science Letters 193(3–4): 617–630, DOI 10.1016/S0012-821X(01)00526-X.
- 35.Wang X, Lu Y and Zhao H, 2006. On the performances of the single-aliquot regenerative-dose (SAR) protocol for Chinese loess: fine quartz and polymineral grains. Radiation Measurements 41(1): 1–8, DOI 10.1016/j.radmeas.2005.02.010.
- 36.Zhang JF, Fan CF, Wang H and Zhou LP, 2007. Chronology of an oyster reef on the coast of Bohai Bay, China: Constraints from optical dating using different luminescence signals from fine quartz and polymineral fine grains of coastal sediments. Quaternary Geo-chronology 2(1–4): 71–76, DOI 10.1016/j.quageo.2006.05.027.
- 37.Zhang JF and Zhou LP, 2007. Optimization of the ‘double SAR’ procedure for polymineral fine grains, Radiation Measurements 42(9): 1475–1482, DOI 10.1016/j.radmeas.2007.06.007
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9b45e49c-ad2a-490a-b23d-e0a37bc1364f