Cross-Calibration of an α-Source Used for Luminescence Dating by Applying Different Samples and Procedures

Aitken MJ, 1985a. Thermoluminescence Dating. Studies in Archaeological Science. Academic Press, London. AitkenMJ 1985a Thermoluminescence Dating. Studies in Archaeological Science Academic Press London Search in Google Scholar

Aitken MJ, 1985b. Alpha particle effectiveness: Numerical relationship between systems. Ancient TL 3: 22–25. AitkenMJ 1985b Alpha particle effectiveness: Numerical relationship between systems Ancient TL 3 22 25 Search in Google Scholar

Aitken MJ, 1998. An Introduction to Optical Dating: The Dating of Quaternary Sediments by the use of Photon-Stimulated Luminescence. Oxford University Press, Oxford. AitkenMJ 1998 An Introduction to Optical Dating: The Dating of Quaternary Sediments by the use of Photon-Stimulated Luminescence Oxford University Press Oxford Search in Google Scholar

Aitken MJ, and Bowman SGE, 1975. Thermoluminescent dating: Assessment of alpha particle contribution. Archaeometry 17(1): 132–138, DOI:10.1111/j.1475-4754.1975.tb00127.x. AitkenMJ BowmanSGE 1975 Thermoluminescent dating: Assessment of alpha particle contribution Archaeometry 17 1 132 138 10.1111/j.1475-4754.1975.tb00127.x Open DOISearch in Google Scholar

Bell WT, 1980. Alpha dose attenuation in quartz grains for thermoluminescence dating. Ancient TL 12: 4–8. BellWT 1980 Alpha dose attenuation in quartz grains for thermoluminescence dating Ancient TL 12 4 8 Search in Google Scholar

Bos AJJ., Wallinga J, Johns C, Abellon RD, Brouwer JC, Schaart DR and Murray AS, 2006. Accurate calibration of a laboratory beta particle dose rate for dating purposes. Radiation Measurements 41(7–8): 1020–1025, DOI:10.1016/j.radmeas.2006.04.003. BosAJJ. WallingaJ JohnsC AbellonRD BrouwerJC SchaartDR MurrayAS 2006 Accurate calibration of a laboratory beta particle dose rate for dating purposes Radiation Measurements 41 7–8 1020 1025 10.1016/j.radmeas.2006.04.003 Open DOISearch in Google Scholar

Bøtter-Jensen L, 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. Bøtter-JensenL BulurE DullerGAT MurrayAS 2000 Advances in luminescence instrument systems Radiation Measurements 32 5–6 523 528 10.1016/S1350-4487(00)00039-1 Open DOISearch in Google Scholar

Bøtter-Jensen L, Thomsen KJ and Jain M, 2010. Review of optically stimulated luminescence (OSL) instrumental developments for retrospective dosimetry. Radiation Measurements 45(3–6): 253–257, DOI:10.1016/j.radmeas.2009.11.030. Bøtter-JensenL ThomsenKJ JainM 2010 Review of optically stimulated luminescence (OSL) instrumental developments for retrospective dosimetry Radiation Measurements 45 3–6 253 257 10.1016/j.radmeas.2009.11.030 Open DOISearch in Google Scholar

Bowman SGE and Huntley DJ, 1984. A new proposal for the expression of alpha efficiency in TL dating. Ancient TL 2: 6–8. BowmanSGE HuntleyDJ 1984 A new proposal for the expression of alpha efficiency in TL dating Ancient TL 2 6 8 Search in Google Scholar

Brennan BJ and Lyons RG, 1989. Ranges of alpha particles in various media. Ancient TL 7: 33–37. BrennanBJ LyonsRG 1989 Ranges of alpha particles in various media Ancient TL 7 33 37 Search in Google Scholar

Buechi MW, Lowick SE, Anselmetti FS, 2017. Luminescence dating of glaciolacustrine silt in overdeepened basin fills beyond the last interglacial. Quaternary Geochronology 37: 55–67, DOI:10.1016/j.quageo.2016.09.009. BuechiMW LowickSE AnselmettiFS 2017 Luminescence dating of glaciolacustrine silt in overdeepened basin fills beyond the last interglacial Quaternary Geochronology 37 55 67 10.1016/j.quageo.2016.09.009 Open DOISearch in Google Scholar

Dietze M, Kreutzer S, Burow C, Fuchs MC, Fischer M and Schmidt C, 2016. The abanico plot: Visualising chronometric data with individual standard errors. Quaternary Geochronology 31: 12–18, DOI:10.1016/j.quageo.2015.09.003. DietzeM KreutzerS BurowC FuchsMC FischerM SchmidtC 2016 The abanico plot: Visualising chronometric data with individual standard errors Quaternary Geochronology 31 12 18 10.1016/j.quageo.2015.09.003 Open DOISearch in Google Scholar

Duller GAT, 2015. The analyst software package for luminescence data: Overview and recent improvements. Ancient TL 33: 35–42. DullerGAT 2015 The analyst software package for luminescence data: Overview and recent improvements Ancient TL 33 35 42 Search in Google Scholar

Fleming S, 1979. Thermoluminescence Techniques in Archaeology. Clarendon Press, Oxford. FlemingS 1979 Thermoluminescence Techniques in Archaeology Clarendon Press Oxford Search in Google Scholar

Franklin AD and Hornyak WF, 1992. Normalization of inclusion size quartz TL data. Ancient TL 10: 1–6. FranklinAD HornyakWF 1992 Normalization of inclusion size quartz TL data Ancient TL 10 1 6 Search in Google Scholar

Gao L, Long H, Tamura T, Ye L, Hou Y, Shen J, 2020. Refined chronostratigraphy of a late Quaternary Sedimentary sequence from the Yangtze River delta based on K-feldspar luminescence dating. Marine Geology 427: 106271. DOI:10.1016/j.margeo.2020.106271. GaoL LongH TamuraT YeL HouY ShenJ 2020 Refined chronostratigraphy of a late Quaternary Sedimentary sequence from the Yangtze River delta based on K-feldspar luminescence dating Marine Geology 427 106271 10.1016/j.margeo.2020.106271 Open DOISearch in Google Scholar

Göksu HY, Bailiff IK, Bøtter-Jensen L, Brodski L, Hütt G and Stoneham D, 1995. Interlaboratory beta source calibration using TL and OSL on natural quartz. Radiation Measurements 24(4): 479–483, DOI:10.1016/1350-4487(95)00258-G. GöksuHY BailiffIK Bøtter-JensenL BrodskiL HüttG StonehamD 1995 Interlaboratory beta source calibration using TL and OSL on natural quartz Radiation Measurements 24 4 479 483 10.1016/1350-4487(95)00258-G Open DOISearch in Google Scholar

Guérin G and Valladas H, 2014. Cross-calibration between beta and gamma sources using quartz OSL: Consequences of the use of the SAR protocol in optical dating. Radiation Measurements 68: 31–37, DOI:10.1016/j.radmeas.2014.06.010. GuérinG ValladasH 2014 Cross-calibration between beta and gamma sources using quartz OSL: Consequences of the use of the SAR protocol in optical dating Radiation Measurements 68 31 37 10.1016/j.radmeas.2014.06.010 Open DOISearch in Google Scholar

Hansen V, Murray AS, Buylaert JP, Yeo EY and Thomsen K, 2015. A new irradiated quartz for beta source calibration. Radiation Measurements 81: 123–127, DOI:10.1016/j.radmeas.2015.02.017. HansenV MurrayAS BuylaertJP YeoEY ThomsenK 2015 A new irradiated quartz for beta source calibration Radiation Measurements 81 123 127 10.1016/j.radmeas.2015.02.017 Open DOISearch in Google Scholar

Hansen V, Murray AS, Thomsen K, Jain M, Autzen M and Buylaert JP, 2018. Towards the origins of over-dispersion in beta source calibration. Radiation Measurements 120: 1–6, DOI:10.1016/j.radmeas.2018.05.014. HansenV MurrayAS ThomsenK JainM AutzenM BuylaertJP 2018 Towards the origins of over-dispersion in beta source calibration Radiation Measurements 120 1 6 10.1016/j.radmeas.2018.05.014 Open DOISearch in Google Scholar

Kadereit A and Kreutzer S, 2013. Risø calibration quartz – A challenge for β-source calibration. An applied study with relevance for luminescence dating. Measurement 46(7): 2238–2250, DOI:10.1016/j.measurement.2013.03.005. KadereitA KreutzerS 2013 Risø calibration quartz – A challenge for β-source calibration. An applied study with relevance for luminescence dating Measurement 46 7 2238 2250 10.1016/j.measurement.2013.03.005 Open DOISearch in Google Scholar

Kreutzer S, Schmidt C, DeWitt R and Fuchs M, 2014. The a-value of polymineral fine grain samples measured with the post-IR IRSL protocol. Radiation Measurements 69: 18–29, DOI:10.1016/j.radmeas.2014.04.027. KreutzerS SchmidtC DeWittR FuchsM 2014 The a-value of polymineral fine grain samples measured with the post-IR IRSL protocol Radiation Measurements 69 18 29 10.1016/j.radmeas.2014.04.027 Open DOISearch in Google Scholar

Mauz B, Bode T, Mainz E, Blanchard H, Hilger W, Dikau R and Zöller L, 2002. The luminescence dating laboratory at University of Bonn: Equipment and procedures. Ancient TL 20(2): 53–61. MauzB BodeT MainzE BlanchardH HilgerW DikauR ZöllerL 2002 The luminescence dating laboratory at University of Bonn: Equipment and procedures Ancient TL 20 2 53 61 Search in Google Scholar

Mauz B, Packman S and Lang A, 2006. The alpha effectiveness in silt-sized quartz: New data obtained by single and multiple aliquot protocols Ancient TL 24(2): 47–52. MauzB PackmanS LangA 2006 The alpha effectiveness in silt-sized quartz: New data obtained by single and multiple aliquot protocols Ancient TL 24 2 47 52 Search in Google Scholar

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. MurrayAS WintleAG 2003 The single aliquot regenerative dose protocol: Potential for improvements in reliability Radiation Measurements 37 4–5 377 381 10.1016/S1350-4487(03)00053-2 Open DOISearch in Google Scholar

Ogata M, Hasebe N, Fujii N and Yamakawa M, 2017. Measuring apparent dose rate factors using beta and gamma rays, and alpha efficiency for precise thermoluminescence dating of calcite. Journal of Mineralogical and Petrological Sciences 112: 336–345. OgataM HasebeN FujiiN YamakawaM 2017 Measuring apparent dose rate factors using beta and gamma rays, and alpha efficiency for precise thermoluminescence dating of calcite Journal of Mineralogical and Petrological Sciences 112 336 345 10.2465/jmps.161126 Search in Google Scholar

Rees-Jones J, 1995. Optical dating of young sediments using fine-grain quartz. Ancient TL, 13: 9–14. Rees-JonesJ 1995 Optical dating of young sediments using fine-grain quartz Ancient TL 13 9 14 Search in Google Scholar

Richter D, Pintaske R, Dornich K and Krbetschek M, 2012. A novel beta source design for uniform irradiation in dosimetric applications. Ancient TL 30(2): 57–63. RichterD PintaskeR DornichK KrbetschekM 2012 A novel beta source design for uniform irradiation in dosimetric applications Ancient TL 30 2 57 63 Search in Google Scholar

Richter D, Richter A and Dornich K, 2013. Lexsyg – A new system for luminescence research. Geochronometria 40(4): 220–228, DOI:10.2478/s13386-013-0110-0. RichterD RichterA DornichK 2013 Lexsyg – A new system for luminescence research Geochronometria 40 4 220 228 10.2478/s13386-013-0110-0 Open DOISearch in Google Scholar

Richter D, Richter A and Dornich K, 2015. Lexsyg smart – A luminescence detection system for dosimetry, material research and dating application. Geochronometria 42(1): 202–209, DOI:10.1515/geochr-2015-0022. RichterD RichterA DornichK 2015 Lexsyg smart – A luminescence detection system for dosimetry, material research and dating application Geochronometria 42 1 202 209 10.1515/geochr-2015-0022 Open DOISearch in Google Scholar

Richter D, Zink AJC., Przegietka KR, Cardoso GO, Gouveia MA and Prudêncio MI, 2003. Source calibrations and blind test results from the new Luminescence Dating Laboratory at the Instituto Tecnológico e Nuclear, Sacavém, Portugal. Ancient TL 21(1): 43–48. RichterD ZinkAJC. PrzegietkaKR CardosoGO GouveiaMA PrudêncioMI 2003 Source calibrations and blind test results from the new Luminescence Dating Laboratory at the Instituto Tecnológico e Nuclear, Sacavém, Portugal Ancient TL 21 1 43 48 Search in Google Scholar

Schmidt C, Bösken J and Kolb T, 2018. Is there a common alpha-efficiency in polymineral samples measured by various infrared stimulated luminescence protocols?. Geochronometria 45: 160–172, DOI:10.1515/geochr-2015-0095. SchmidtC BöskenJ KolbT 2018 Is there a common alpha-efficiency in polymineral samples measured by various infrared stimulated luminescence protocols? Geochronometria 45 160 172 10.1515/geochr-2015-0095 Open DOISearch in Google Scholar

Singhvi AK and Aitken MJ, 1978. Americium-241 for alpha irradiations. Ancient TL 3: 2–9. SinghviAK AitkenMJ 1978 Americium-241 for alpha irradiations Ancient TL 3 2 9 Search in Google Scholar

Sipos Gy, Kiss T and Tóth O, 2016. Constraining the age of flood-plain levels along the lower section of River Tisza, Hungary. Journal of Environmental Geography 9(1–2): 39–44, DOI:10.1515/jengeo-2016-0006. SiposGy KissT TóthO 2016 Constraining the age of flood-plain levels along the lower section of River Tisza, Hungary Journal of Environmental Geography 9 1–2 39 44 10.1515/jengeo-2016-0006 Open DOISearch in Google Scholar

Sipos Gy, Marković SB, Filyó D, Tóth O, Gavrilov MB, Nagy I, Lukic T, Bartyik T, Kiss T, Mezősi G, (in prep). Aeolian dust deposition during the last glacial cycle at the centre of the Backa Loess Plateau, Vojvodina, Serbia. SiposGy MarkovićSB FilyóD TóthO GavrilovMB NagyI LukicT BartyikT KissT MezősiG (in prep). Aeolian dust deposition during the last glacial cycle at the centre of the Backa Loess Plateau Vojvodina Serbia Search in Google Scholar

Thiel C, Buylaert JP, Murray AS, Terhorst B, Hofer I, Tsukamoto S and Frechen M, 2011. Luminescence dating of the Stratzing loess profile (Austria) – Testing the potential of an elevated temperature post-IR IRSL protocol. Quaternary International 234: 23–31, DOI:10.1016/j.quaint.2010.05.018. ThielC BuylaertJP MurrayAS TerhorstB HoferI TsukamotoS FrechenM 2011 Luminescence dating of the Stratzing loess profile (Austria) – Testing the potential of an elevated temperature post-IR IRSL protocol Quaternary International 234 23 31 10.1016/j.quaint.2010.05.018 Open DOISearch in Google Scholar

Thomsen KJ, Murray AS, Jain M and Bøtter-Jensen L, 2008. Laboratory fading rates of various luminescence signals from feldspar-rich sediment extracts. Radiation Measurements 43: 1474–1486, DOI:10.1016/j.radmeas.2008.06.002. ThomsenKJ MurrayAS JainM Bøtter-JensenL 2008 Laboratory fading rates of various luminescence signals from feldspar-rich sediment extracts Radiation Measurements 43 1474 1486 10.1016/j.radmeas.2008.06.002 Open DOISearch in Google Scholar

Tribolo C, Kreutzer S and Mercier N, 2019. How reliable are our beta-source calibrations? Ancient TL, 37(1): 1–10. TriboloC KreutzerS MercierN 2019 How reliable are our beta-source calibrations? Ancient TL 37 1 1 10 Search in Google Scholar

Zimmerman DW, 1971. Thermoluminescent dating using fine grains from pottery. Archaeometry 13(1): 29–52. ZimmermanDW 1971 Thermoluminescent dating using fine grains from pottery Archaeometry 13 1 29 52 10.1111/j.1475-4754.1971.tb00028.x Search in Google Scholar

Zimmerman DW, 1972. Relative thermoluminescence effects of alpha- and beta-irradiation. Radiation Effects 14: 81–92, DOI:10.1080/00337577208230476. ZimmermanDW 1972 Relative thermoluminescence effects of alpha- and beta-irradiation Radiation Effects 14 81 92 10.1080/00337577208230476 Open DOISearch in Google Scholar