Article Category: Conference Proceedings of the 12th International Conference “Methods of Absolute Chronology” May 11-13th, 2016, Gliwice-Paniówki, Poland
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Adamiec G and Aitken MJ, 1998. Dose-rate conversion factors: update. Ancient TL 16: 37–50.AdamiecGAitkenMJ1998Dose-rate conversion factors: updateAncient TL163750Search in Google Scholar
Aitken MJ, 1985. Thermoluminescence Dating. Academic Press, London, 359 pp.AitkenMJ1985Thermoluminescence DatingAcademic PressLondon359Search in Google Scholar
Berger GW, 2010. An alternate form of probability-distribution plot for De values. Antient TL 28: 11–22.BergerGW2010An alternate form of probability-distribution plot for De valuesAntient TL281122Search in Google Scholar
Bortolot VJ, 2000. A new modular high capacity OSL reader system. Radiation Measurements 32: 751–757, 10.1016/S1350-4487(00)00038-X.BortolotVJ2000A new modular high capacity OSL reader systemRadiation Measurements3275175710.1016/S1350-4487(00)00038-XOpen DOISearch in Google Scholar
Chruścińska A, Cicha A, Kijek N, Palczewski P, Przegięta K and Sulkowska-Tuszyńska K, 2014. Luminescence dating of bricks from the gothic Saint James church in Toruń. Geochronometria 41: 352–360, 10.2478/s13386-013-0165-y.ChruścińskaACichaAKijekNPalczewskiPPrzegiętaKSulkowska-TuszyńskaK2014Luminescence dating of bricks from the gothic Saint James church in ToruńGeochronometria4135236010.2478/s13386-013-0165-yOpen DOISearch in Google Scholar
Galbraith RF, Roberts RG, Laslett GM, Yoshida H and Olley JM, 1999. Optical dating of single and multiple grains of quartz from Jinminum Rock Shelter, Northern Australia. Part I, experimental design and statistical models. Archaeometry 41: 1835–1857, 10.1111/j.1475-4754.1999.tb00987.x.GalbraithRFRobertsRGLaslettGMYoshidaHOlleyJM1999Optical dating of single and multiple grains of quartz from Jinminum Rock Shelter, Northern Australia. Part I, experimental design and statistical modelsArchaeometry411835185710.1111/j.1475-4754.1999.tb00987.xOpen DOISearch in Google Scholar
Guerin G, Mercier N and Adamiec G, 2011. Dose-rate conversion factors: update. Ancient TL 29: 5–8.GuerinGMercierNAdamiecG2011Dose-rate conversion factors: updateAncient TL2958Search in Google Scholar
Karwowski Ł, Pilski A, Muszyński A, Arnold S, Notkin G and Gurdziel A, 2011. New finds in the Morasko meteorite preserve, Poland. Meteorites 1(1): 21–28.KarwowskiŁPilskiAMuszyńskiAArnoldSNotkinGGurdzielA2011New finds in the Morasko meteorite preserve, PolandMeteorites112128Search in Google Scholar
Khasawneh S, Murray A, Bonatz D and Freiesleben T, 2015. Testing the application of post IR IRSL dating to Iron- and Viking-age ceramics and heated stones from Denmark. Quaternary Geochronology 30: 386–391, 10.1016/j.quageo.2015.05.014.KhasawnehSMurrayABonatzDFreieslebenT2015Testing the application of post IR IRSL dating to Iron- and Viking-age ceramics and heated stones from DenmarkQuaternary Geochronology3038639110.1016/j.quageo.2015.05.014Open DOISearch in Google Scholar
Murray AS and Wintle AG, 2000. Luminescence dating of quartz using an improved single aliquot regenerative-dose protocol. Radiation Measurements 32: 57–70, 10.1016/S1350-4487(99)00253-X.MurrayASWintleAG2000Luminescence dating of quartz using an improved single aliquot regenerative-dose protocolRadiation Measurements32577010.1016/S1350-4487(99)00253-XOpen DOISearch in Google Scholar
Muszyński A, Kryza R, Karwowski Ł, Pilski AS and Muszyńska J, 2012. The largest iron meteorite shower in Central Europe. Bogucki Wydawnictwo Naukowe, Poznań, 109 pp.MuszyńskiAKryzaRKarwowskiŁPilskiASMuszyńskaJ2012The largest iron meteorite shower in Central EuropeBogucki Wydawnictwo NaukowePoznań109Search in Google Scholar
Pilski AS and Walton W, 1999. Morasko – the largest European iron meteorite shower. Meteorite 5: 27–28.PilskiASWaltonW1999Morasko – the largest European iron meteorite showerMeteorite52728Search in Google Scholar
Prescott JR and Stephan LG, 1982. The contribution of cosmic radiation to the environmental dose for thermoluminescence dating. Latitude, altitude and depth dependencies. TLS II-1, 16–25.PrescottJRStephanLG1982The contribution of cosmic radiation to the environmental dose for thermoluminescence dating. Latitude, altitude and depth dependenciesTLSII-11625Search in Google Scholar
Stankowski WTJ, Raukas A, Bluszcz A and Fedorowicz S, 2007. Luminescence dating of the Morasko (Poland), Kaali, Ilumetsa and Tsoorikmae (Estonia) meteoryt craters. Geochronometria 28: 25–29, 10.2478/v10003-007-0031-0.StankowskiWTJRaukasABluszczAFedorowiczS2007Luminescence dating of the Morasko (Poland), Kaali, Ilumetsa and Tsoorikmae (Estonia) meteoryt cratersGeochronometria28252910.2478/v10003-007-0031-0Open DOISearch in Google Scholar
Stankowski WTJ, 2009. Morasko Meteorite, a curiosity of the Poznań region, Time and results of the fall. UAM, Poznań, 94 pp.StankowskiWTJ2009Morasko Meteorite, a curiosity of the Poznań region, Time and results of the fallUAMPoznań94Search in Google Scholar
Stankowski WTJ and Bluszcz A, 2012. Luminescence Dating as Comparative Data to Radiocarbon Age Estimation of Morsko Spherical Depressions. Radiometric Dating, (ed.) D.Michalska-Nawrocka. INTECHOPEN.COM, Printed In Croatia, pp. 115–126.StankowskiWTJBluszczA2012Luminescence Dating as Comparative Data to Radiocarbon Age Estimation of Morsko Spherical DepressionsRadiometric DatingMichalska-NawrockaD.INTECHOPEN.COM, Printed In Croatia115126Search in Google Scholar
Stankowski WTJ, 2015. The extraterrestrial matter falls in west-central Poland (Great Poland Lowland); historical and geological data. Acta Geologica Polonica 65(2): 265–270.StankowskiWTJ2015The extraterrestrial matter falls in west-central Poland (Great Poland Lowland); historical and geological dataActa Geologica Polonica65226527010.1515/agp-2015-0011Search in Google Scholar
