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Agostinelli S, Allison J, Amako K, Apostolakis J, Araujo H, Arce P, Asai M, Axen D, Banerjee S, Barrand G, Behner F, Bellagamba L, Boudreau J, Broglia L, Brunengo A, Burkhardt H, Chauvie S, Chuma J, Chytracek R, Cooperman G, Cosmo G, Degtyarenko P, Dell’Acqua A, Depaola G, Dietrich D, Enami R, Feliciello A, Ferguson C, Fesefeldt H, Folger G, Foppiano F, Forti A, Garelli S, Giani S, Giannitrapani R, Gibin D, Gómez Cadenas J.J, González I, Gracia Abril G, Greeniaus G, Greiner W, Grichine V, Grossheim A, Guatelli S, Gumplinger P, Hamatsu R, Hashimoto K, Hasui H, Heikkinen A, Howard A, Ivanchenko V, Johnson A, Jones F.W, Kallenbach J, Kanaya N, Kawabata M, Kawabata Y, Kawaguti M, Kelner S, Kent P, Kimura A, Kodama T, Kokoulin R, Kossov M, Kurashige H, Lamanna E, Lampén T, Lara V, Lefebure V, Lei F, Liendl M, Lockman W, Longo F, Magni S, Maire M, Medernach E, Minamimoto K, Mora de Freitas P, Morita Y, Murakami K, Nagamatu M, Nartallo R, Nieminen P, Nishimura T, Ohtsubo K, Okamura M, O’Neale S, Oohata Y, Paech K, Perl J, Pfeiffer A, Pia M.G, Ranjard F, Rybin A, Sadilov S, Di Salvo E, Santin G, Sasaki T, Savvas N, Sawada Y, Scherer S, Sei S, Sirotenko V, Smith D, Starkov N, Stoecker H, Sulkimo J, Takahata M, Tanaka S, Tcher-niaev E, Safai Tehrani E, Tropeano M, Truscott P, Uno H, Urban L, Urban P, Verderi M, Walkden A, Wander W, Weber H, Wellisch J.P, Wenaus T, Williams D.C, Wright D, Yamada T, Yoshida H and Zschiesche D, 2003. Geant4—a simulation toolkit. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 506: 250–303, 10.1016/S0168-9002(03)01368-8.AgostinelliSAllisonJAmakoKApostolakisJAraujoHArcePAsaiMAxenDBanerjeeSBarrandGBehnerFBellagambaLBoudreauJBrogliaLBrunengoABurkhardtHChauvieSChumaJChytracekRCoopermanGCosmoGDegtyarenkoPDell’AcquaADepaolaGDietrichDEnamiRFelicielloAFergusonCFesefeldtHFolgerGFoppianoFFortiAGarelliSGianiSGiannitrapaniRGibinDGómez CadenasJ.JGonzálezIGracia AbrilGGreeniausGGreinerWGrichineVGrossheimAGuatelliSGumplingerPHamatsuRHashimotoKHasuiHHeikkinenAHowardAIvanchenkoVJohnsonAJonesF.WKallenbachJKanayaNKawabataMKawabataYKawagutiMKelnerSKentPKimuraAKodamaTKokoulinRKossovMKurashigeHLamannaELampénTLaraVLefebureVLeiFLiendlMLockmanWLongoFMagniSMaireMMedernachEMinamimotoKMora de FreitasPMoritaYMurakamiKNagamatuMNartalloRNieminenPNishimuraTOhtsuboKOkamuraMO’NealeSOohataYPaechKPerlJPfeifferAPiaM.GRanjardFRybinASadilovSDi SalvoESantinGSasakiTSavvasNSawadaYSchererSSeiSSirotenkoVSmithDStarkovNStoeckerHSulkimoJTakahataMTanakaSTcher-niaevESafai TehraniETropeanoMTruscottPUnoHUrbanLUrbanPVerderiMWalkdenAWanderWWeberHWellischJ.PWenausTWilliamsD.CWrightDYamadaTYoshidaHZschiescheD2003Geant4—a simulation toolkitNuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment50625030310.1016/S0168-9002(03)01368-8Open DOISearch in Google Scholar
Aguirre E and Carbonell E, 2001. Early human expansions into Eurasia: The Atapuerca evidence. Quaternary International 75(1): 11–18, 10.1016/S1040-6182(00)00073-2.AguirreECarbonellE2001Early human expansions into Eurasia: The Atapuerca evidenceQuaternary International751111810.1016/S1040-6182(00)00073-2Open DOISearch in Google Scholar
Aitken MJ, 1985. Thermoluminescence dating. Academic Press.AitkenMJ1985Thermoluminescence datingAcademic PressSearch in Google Scholar
Akselrod MS, Kortov VS, Kravetsky DJ and Gotlib VI, 1990. Highly Sensitive Thermoluminescent Anion-Defective Alpha-Al203:C Single Crystal Detectors. Radiation Protection Dosimetry 32: 15–20.AkselrodMSKortovVSKravetskyDJGotlibVI1990Highly Sensitive Thermoluminescent Anion-Defective Alpha-Al203:C Single Crystal DetectorsRadiation Protection Dosimetry321520Search in Google Scholar
Akselrod MS, Kortov VS and Gorelova EA, 1993. Preparation and Properties of α-Al2O3:C. Radiation Protection Dosimetry 47: 159–164.AkselrodMSKortovVSGorelovaEA1993Preparation and Properties of α-Al2O3:CRadiation Protection Dosimetry4715916410.1093/rpd/47.1-4.159Search in Google Scholar
Akselrod MS, Lucas AC, Polf JC and McKeever SWS, 1998. Optically stimulated luminescence of Al2O3. Radiation Measurements 29: 391–399, 10.1016/S1350-4487(98)00061-4.AkselrodMSLucasACPolfJCMcKeeverSWS1998Optically stimulated luminescence of Al2O3Radiation Measurements2939139910.1016/S1350-4487(98)00061-4Open DOISearch in Google Scholar
Allison J, 2007. Facilities and Methods: Geant4 – A Simulation Toolkit. Nuclear Physics News 17: 20–24, 10.1080/10506890701404297.AllisonJ2007Facilities and Methods: Geant4 – A Simulation ToolkitNuclear Physics News17202410.1080/10506890701404297Open DOISearch in Google Scholar
Arnold LJ, Duval M, Falguères C, Bahain JJ and Demuro M, 2012. Portable gamma spectrometry with cerium-doped lanthanum bromide scintillators: Suitability assessments for luminescence and electron spin resonance dating applications. Radiation Measurements 47: 6–18, 10.1016/j.radmeas.2011.09.001.ArnoldLJDuvalMFalguèresCBahainJJDemuroM2012Portable gamma spectrometry with cerium-doped lanthanum bromide scintillators: Suitability assessments for luminescence and electron spin resonance dating applicationsRadiation Measurements4761810.1016/j.radmeas.2011.09.001Open DOISearch in Google Scholar
Aznar MC, Nathan R, Murray AS and Bøtter-Jensen L, 2003. Determination of differential dose rates in a mixed beta and gamma field using shielded Al2O3:C: results of Monte Carlo modelling. Radiation Measurements 37: 329–334, 10.1016/S1350-4487(03)00003-9.AznarMCNathanRMurrayASBøtter-JensenL2003Determination of differential dose rates in a mixed beta and gamma field using shielded Al2O3:C: results of Monte Carlo modellingRadiation Measurements3732933410.1016/S1350-4487(03)00003-9Open DOISearch in Google Scholar
Bailiff I, 1982. Beta TLD apparatus for small samples. PACT 6: 72–75.BailiffI1982Beta TLD apparatus for small samplesPACT67275Search in Google Scholar
Bottollier-Depois JF, Chau Q, Bouisset P, Kerlau G, Plawinski L and Lebaron-Jacobs L, 2003. Assessing exposure to cosmic radiation on board aircraft. Advances in Space Research 32: 59–66, 10.1016/S0273-1177(03)90371-1.Bottollier-DepoisJFChauQBouissetPKerlauGPlawinskiLLebaron-JacobsL2003Assessing exposure to cosmic radiation on board aircraftAdvances in Space Research32596610.1016/S0273-1177(03)90371-1Open DOISearch in Google Scholar
Bulur E and Göksu HY, 1997. Pulsed optically stimulated luminescence from α-Al2O3:C using green light emitting diodes. Radiation Measurements 27: 479–488, 10.1016/S1350-4487(97)00015-2.BulurEGöksuHY1997Pulsed optically stimulated luminescence from α-Al2O3:C using green light emitting diodesRadiation Measurements2747948810.1016/S1350-4487(97)00015-2Open DOISearch in Google Scholar
Bulur E and Göksu HY, 1999. Phototransferred thermoluminescence from α-Al2O3:C using blue light emitting diodes. Radiation Measurements 30: 203–206, 10.1016/S1350-4487(99)00035-9.BulurEGöksuHY1999Phototransferred thermoluminescence from α-Al2O3:C using blue light emitting diodesRadiation Measurements3020320610.1016/S1350-4487(99)00035-9Open DOISearch in Google Scholar
Burbidge CI and Duller GAT, 2003. Combined gamma and beta dosimetry, using AhO3:C, for in situ measurements on a sequence of archaeological deposits. Radiation Measurements 37: 285–291, 10.1016/S1350-4487(03)00026-X.BurbidgeCIDullerGAT2003Combined gamma and beta dosimetry, using AhO3:C, for in situ measurements on a sequence of archaeological depositsRadiation Measurements3728529110.1016/S1350-4487(03)00026-XOpen DOISearch in Google Scholar
Currie LA, 1968. Limits for qualitative detection and quantitative determination. Application to radiochemistry. Analytical Chemistry 40: 586–593, 10.1021/ac60259a007.CurrieLA1968Limits for qualitative detection and quantitative determination. Application to radiochemistryAnalytical Chemistry4058659310.1021/ac60259a007Open DOISearch in Google Scholar
Erfurt G, Krbetschek MR, Trautmann T and Stolz W, 2000. Radioluminescence (RL) behaviour of Al2O3:C-potential for dosimetric applications. Radiation Measurements 32: 735–739, 10.1016/S1350-4487(00)00052-4.ErfurtGKrbetschekMRTrautmannTStolzW2000Radioluminescence (RL) behaviour of Al2O3:C-potential for dosimetric applicationsRadiation Measurements3273573910.1016/S1350-4487(00)00052-4Open DOISearch in Google Scholar
Guérin G and Mercier N, 2011. Determining gamma dose rates by field gamma spectroscopy in sedimentary media: Results of Monte Carlo simulations. Radiation Measurements 46: 190–195, 10.1016/j.radmeas.2010.10.003.GuérinGMercierN2011Determining gamma dose rates by field gamma spectroscopy in sedimentary media: Results of Monte Carlo simulationsRadiation Measurements4619019510.1016/j.radmeas.2010.10.003Open DOISearch in Google Scholar
Guérin G, Mercier N and Adamiec G, 2011. Dose-rate conversion factors: update. Ancient TL 29: 5–9.GuérinGMercierNAdamiecG2011Dose-rate conversion factors: updateAncient TL2959Search in Google Scholar
Kalchgruber R, 2002. α-Al2O3:C als Dosimeter zur Bestimmung der Dosisleistung bei der Lumineszenzdatierung. Ruprecht -- Karls -- Universität Heidelberg., PhD thesis (in German).KalchgruberR2002α-Al2O3:C als Dosimeter zur Bestimmung der Dosisleistung bei der LumineszenzdatierungRuprecht -- Karls -- Universität Heidelberg.PhD thesisin GermanSearch in Google Scholar
Kalchgruber R and Wagner GA, 2006. Separate assessment of natural beta and gamma dose-rates with TL from single-crystal chips. Radiation Measurements 41: 154–162, 10.1016/j.radmeas.2005.04.002.KalchgruberRWagnerGA2006Separate assessment of natural beta and gamma dose-rates with TL from single-crystal chipsRadiation Measurements4115416210.1016/j.radmeas.2005.04.002Open DOISearch in Google Scholar
Kreutzer S, Schmidt C, Fuchs MC, Dietze M, Fischer M and Fuchs M, 2012. Introducing an R package for luminescence dating analysis. Ancient TL 30: 1–8.KreutzerSSchmidtCFuchsMCDietzeMFischerMFuchsM2012Introducing an R package for luminescence dating analysisAncient TL3018Search in Google Scholar
Kreutzer S, Dietze M, Burow C, Fuchs MC, Schmidt C, Fischer M and Friedrich J, 2017. Luminescence: Comprehensive Luminescence Dating Data Analysis. R package, version 0.7.5. https://CRAN.R-project.org/package=LuminescenceKreutzerSDietzeMBurowCFuchsMCSchmidtCFischerMFriedrichJ2017Luminescence: Comprehensive Luminescence Dating Data AnalysisR package, version 0.7.5https://CRAN.R-project.org/package=LuminescenceSearch in Google Scholar
Markey BG, Colyott LE, McKeever SWS, 1995. Time-resolved optically stimulated luminescence from α-Al2O3:C. Radiation Measurements 24: 457–463, 10.1016/1350-4487(94)00119-L.MarkeyBGColyottLEMcKeeverSWS1995Time-resolved optically stimulated luminescence from α-Al2O3:CRadiation Measurements2445746310.1016/1350-4487(94)00119-LOpen DOISearch in Google Scholar
Martin L, 2015. Caractérisation et modélisation d’objets archéologiques en vue de leur datation par des méthodes paléo-dosimétriques. Simulation des paramètres dosimétriques sous Geant4. PhD thesis (in French). Université Bordeaux Montagine, France.MartinL2015Caractérisation et modélisation d’objets archéologiques en vue de leur datation par des méthodes paléo-dosimétriquesSimulation des paramètres dosimétriques sous Geant4. PhD thesisin FrenchUniversité Bordeaux MontagineFranceSearch in Google Scholar
Martin L, Incerti S and Mercier N, 2015a. Comparison of DosiVox simulation results with tabulated data and standard calculations. Ancient TL 33: 1–9.MartinLIncertiSMercierN2015aComparison of DosiVox simulation results with tabulated data and standard calculationsAncient TL3319Search in Google Scholar
Martin L, Incerti S and Mercier N, 2015b. DosiVox: Implementing Geant 4-based software for dosimetry simulations relevant to luminescence and ESR dating techniques. Ancient TL 33: 1–10.MartinLIncertiSMercierN2015bDosiVox: Implementing Geant 4-based software for dosimetry simulations relevant to luminescence and ESR dating techniquesAncient TL33110Search in Google Scholar
McKeever SWS, Akselrod MS, Markey BG, 1996. Pulsed Optically Stimulated Luminescence Dosimetry Using Alpha-Al2O3:C. Radiation Protection Dosimetry 65: 267–272, 10.1093/oxfordjournals.rpd.a031639.McKeeverSWSAkselrodMSMarkeyBG1996Pulsed Optically Stimulated Luminescence Dosimetry Using Alpha-Al2O3:CRadiation Protection Dosimetry6526727210.1093/oxfordjournals.rpd.a031639Open DOISearch in Google Scholar
Mejdahl V, 1970. Measurement of Environmental Radiation at Archaeological Excavation Sites. Archaeometry 12: 147–159, 10.1111/j.1475-4754.1970.tb00017.x.MejdahlV1970Measurement of Environmental Radiation at Archaeological Excavation SitesArchaeometry1214715910.1111/j.1475-4754.1970.tb00017.xOpen DOISearch in Google Scholar
Mejdahl V, 1978. Measurement of environmental radiation at archaeological sites by means of TL dosimeters. PACT 2: 70–83.MejdahlV1978Measurement of environmental radiation at archaeological sites by means of TL dosimetersPACT27083Search in Google Scholar
Mercier N and Falguères, C, 2007. Field gamma dose-rate measurement with a NaI(Tl) detector: re-evaluation of the “threshold” technique. Ancient TL 25: 1–4.MercierNFalguèresC2007Field gamma dose-rate measurement with a NaI(Tl) detector: re-evaluation of the “threshold” techniqueAncient TL2514Search in Google Scholar
Miallier D, Guérin G, Mercier N, Pilleyre T and Sanzelle S, 2009. The Clermont radiometric reference rocks: a convenient tool for dosimetric purposes. Ancient TL 27: 37–44.MiallierDGuérinGMercierNPilleyreTSanzelleS2009The Clermont radiometric reference rocks: a convenient tool for dosimetric purposesAncient TL273744Search in Google Scholar
Oster L, Weiss D and Kristianpoller N, 1994. A study of photostimulated thermoluminescence in C-doped alpha -Al2O3 crystals. Journal of Physics D: Applied Physics 27: 1732–1736, 10.1088/0022-3727/27/8/023.OsterLWeissDKristianpollerN1994A study of photostimulated thermoluminescence in C-doped alpha -Al2O3 crystalsJournal of Physics D: Applied Physics271732173610.1088/0022-3727/27/8/023Open DOISearch in Google Scholar
R Development Core Team, 2017. R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria. http://r-project.orgR Development Core Team2017R: A Language and Environment for Statistical Computing. R Foundation for Statistical ComputingViennaAustriahttp://r-project.orgSearch in Google Scholar
Richter A and Kumar T, 2014. Instruction Manual lexsyg smart – Automated TL/OSL Reader. Freiberg Instruments GmbH.RichterAKumarT2014Instruction Manual lexsyg smart – Automated TL/OSL ReaderFreiberg Instruments GmbHSearch in Google Scholar
Richter D, Dombrowski H, Neumaier S, Guibert P and Zink AC, 2010. Environmental gamma dosimetry with OSL of α-Al2O3:C for in situ sediment measurements. Radiation Protection Dosimetry 141: 27–35, 10.1093/rpd/ncq146.RichterDDombrowskiHNeumaierSGuibertPZinkAC2010Environmental gamma dosimetry with OSL of α-Al2O3:C for in situ sediment measurementsRadiation Protection Dosimetry141273510.1093/rpd/ncq14620534630Open 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: 202–209, 10.1515/geochr-2015-0022.RichterDRichterADornichK2015Lexsyg smart — a luminescence detection system for dosimetry, material research and dating applicationGeochronometria4220220910.1515/geochr-2015-0022Open DOISearch in Google Scholar
Valladas G, 1982. Mesure de la dose annuelle de l’environnement d’un site par un dosimètre TL. PACT 6: 77–85.ValladasG1982Mesure de la dose annuelle de l’environnement d’un site par un dosimètre TLPACT67785Search in Google Scholar
Whitley von H and McKeever SWS, 2000. Photoionization of deep centers in Al2O3. Journal of Applied Physics 87: 249–256, 10.1063/1.371853.Whitley vonHMcKeeverSWS2000Photoionization of deep centers in Al2O3Journal of Applied Physics8724925610.1063/1.371853Open DOISearch in Google Scholar
Yukihara EG and McKeever SWS, 2011. Optically Stimulated Luminescence. Wiley.YukiharaEGMcKeeverSWS2011Optically Stimulated LuminescenceWiley10.1002/9780470977064Search in Google Scholar
