This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
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, 1998. An Introduction to Optical Dating. Oxford University Press, Oxford.AitkenMJ1998An Introduction to Optical DatingOxford University PressOxfordSearch in Google Scholar
Buylaert JP, Yeo EY, Thiel C, Yi SW, Stevens T, Thompson W, Frechen M, Murray A and Lu HY, 2015. A detailed post-IR IRSL chronology for the last interglacial soil at the Jingbian loess site (northern China). Quaternary Geochronology 30: 194–199, DOI 10.1016/j.quageo.2015.02.022.BuylaertJPYeoEYThielCYiSWStevensTThompsonWFrechenMMurrayALuHY2015A detailed post-IR IRSL chronology for the last interglacial soil at the Jingbian loess site (northern China)Quaternary Geochronology3019419910.1016/j.quageo.2015.02.022Open DOISearch in Google Scholar
Buylaert JP, Murray AS, Thomsen KJ and Jain M, 2009. Testing the potential of an elevated temperature IRSL signal from K-feldspar. Radiation Measurements 44: 560–565, DOI 10.1016/j.radmeas.2009.02.007.BuylaertJPMurrayASThomsenKJJainM2009Testing the potential of an elevated temperature IRSL signal from K-feldsparRadiation Measurements4456056510.1016/j.radmeas.2009.02.007Open DOISearch in Google Scholar
Chen YW, Li SH and Li B, 2013. Residual doses and sensitivity change of post IR IRSL signals from potassium feldspar under different bleaching conditions. Geochronometria 40: 229–238, DOI 10.2478/s13386-013-0128-3.ChenYWLiSHLiB2013Residual doses and sensitivity change of post IR IRSL signals from potassium feldspar under different bleaching conditionsGeochronometria4022923810.2478/s13386-013-0128-3Open DOISearch in Google Scholar
Chen YW, Li SH, Li B, Hao QZ and Sun JM, 2015. Maximum age limitation in luminescence dating of Chinese loess using the multiple-aliquot MET-pIRIR signals from K-feldspar. Quaternary Geochronology 30: 207–212, DOI 10.1016/j.quageo.2015.01.002.ChenYWLiSHLiBHaoQZSunJM2015Maximum age limitation in luminescence dating of Chinese loess using the multiple-aliquot MET-pIRIR signals from K-feldsparQuaternary Geochronology3020721210.1016/j.quageo.2015.01.002Open DOISearch in Google Scholar
Ding ZL, Derbyshire E, Yang SL, Sun JM and Liu TS, 2005. Stepwise expansion of desert environment across northern China in the past 3.5 Ma and implications for monsoon evolution. Earth and Planetary Science Letters 237: 45–55, DOI 10.1016/j.epsl.2005.06.036.DingZLDerbyshireEYangSLSunJMLiuTS2005Stepwise expansion of desert environment across northern China in the past 3.5 Ma and implications for monsoon evolutionEarth and Planetary Science Letters237455510.1016/j.epsl.2005.06.036Open DOISearch in Google Scholar
Duller GAT, 1997. Behavioural studies of stimulated luminescence from feldspars. Radiation Measurements 27: 663–694, DOI 10.1016/S1350-4487(97)00216-3.DullerGAT1997Behavioural studies of stimulated luminescence from feldsparsRadiation Measurements2766369410.1016/S1350-4487(97)00216-3Open DOISearch in Google Scholar
Duval M, Guilarte V, Campaña I, Arnold LJ, Miguens L, Iglesias J and González-Sierra S, 2018. Quantifying hydrofluoric acid etching of quartz and feldspar coarse grains based on weight loss estimates: implication for ESR and luminescence dating studies. Ancient TL 36(1): 1–14.DuvalMGuilarteVCampañaIArnoldLJMiguensLIglesiasJGonzález-SierraS2018Quantifying hydrofluoric acid etching of quartz and feldspar coarse grains based on weight loss estimates: implication for ESR and luminescence dating studiesAncient TL361114Search in Google Scholar
Hu Y, Marwick B, Zhang J-F, Rui X, Hou Y-M, Yue J-P, Chen W-R, Huang W-W and Li B, 2019. Late Middle Pleistocene Levallois stone-tool technology in southwest China. Nature 565: 82–85, DOI 10.1038/s41586-018-0710-1.HuYMarwickBZhangJ-FRuiXHouY-MYueJ-PChenW-RHuangW-WLiB2019Late Middle Pleistocene Levallois stone-tool technology in southwest ChinaNature565828510.1038/s41586-018-0710-130455423Open DOISearch in Google Scholar
Huntley DJ and Lamothe M, 2001. Ubiquity of anomalous fading in K-feldspars and the measurement and correction for it in optical dating. Canadian Journal of Earth Sciences 38: 1093–1106, DOI 10.1139/e01-013.HuntleyDJLamotheM2001Ubiquity of anomalous fading in K-feldspars and the measurement and correction for it in optical datingCanadian Journal of Earth Sciences381093110610.1139/e01-013Open DOISearch in Google Scholar
Huntley DJ and Baril MR, 1997. The K content of the K-feldspars being measured in optical dating or in thermoluminescence dating. Ancient TL 15: 11–13.HuntleyDJBarilMR1997The K content of the K-feldspars being measured in optical dating or in thermoluminescence datingAncient TL151113Search in Google Scholar
Kars RH, Reimann T and Wallinga J, 2014. Are feldspar SAR protocols appropriate for post-IR IRSL dating? Quaternary Geochronology 22: 126–136, DOI 10.1016/j.quageo.2014.04.001.KarsRHReimannTWallingaJ2014Are feldspar SAR protocols appropriate for post-IR IRSL dating?Quaternary Geochronology2212613610.1016/j.quageo.2014.04.001Open DOISearch in Google Scholar
Lai ZP, 2010. Chronology and the upper dating limit for loess samples from Luochuan section in the Chinese Loess Plateau using quartz OSL SAR protocol. Journal of Asian Earth Sciences 37: 176–185, DOI 10.1016/j.jseaes.2009.08.003.LaiZP2010Chronology and the upper dating limit for loess samples from Luochuan section in the Chinese Loess Plateau using quartz OSL SAR protocolJournal of Asian Earth Sciences3717618510.1016/j.jseaes.2009.08.003Open DOISearch in Google Scholar
Li B, Jacobs Z and Roberts RG, 2016. Investigation of the applicability of standardised growth curves for OSL dating of quartz from Haua Fteah cave, Libya. Quaternary Geochronology 35: 1–15, DOI 10.1016/j.quageo.2016.05.001.LiBJacobsZRobertsRG2016Investigation of the applicability of standardised growth curves for OSL dating of quartz from Haua Fteah cave, LibyaQuaternary Geochronology3511510.1016/j.quageo.2016.05.001Open DOISearch in Google Scholar
Li B, Jacobs Z and Roberts RG, 2017a. An improved multiple-aliquot regenerative-dose (MAR) procedure for post-IR IRSL dating of K-feldspar. Ancient TL 35(1): 1–10.LiBJacobsZRobertsRG2017aAn improved multiple-aliquot regenerative-dose (MAR) procedure for post-IR IRSL dating of K-feldsparAncient TL351110Search in Google Scholar
Li B, Jacobs Z, Roberts RG, Galbraith R and Peng J, 2017b. Variability in quartz OSL signals caused by measurement uncertainties: Problems and solutions. Quaternary Geochronology 41: 11–25, DOI 10.1016/j.quageo.2017.05.006.LiBJacobsZRobertsRGGalbraithRPengJ2017bVariability in quartz OSL signals caused by measurement uncertainties: Problems and solutionsQuaternary Geochronology41112510.1016/j.quageo.2017.05.006Open DOISearch in Google Scholar
Li B, Jacobs Z, Roberts RG and Li SH, 2013. Extending the age limit of luminescence dating using the dose-dependent sensitivity of MET-pIRIR signals from K-feldspar. Quaternary Geochronology 17: 55–67, DOI 10.1016/j.quageo.2013.02.003.LiBJacobsZRobertsRGLiSH2013Extending the age limit of luminescence dating using the dose-dependent sensitivity of MET-pIRIR signals from K-feldsparQuaternary Geochronology17556710.1016/j.quageo.2013.02.003Open DOISearch in Google Scholar
Li B, Jacobs Z, Roberts RG and Li SH, 2014. Review and assessment of the potential of post-IR IRSL dating methods to circumvent the problem of anomalous fading in feldspar luminescence. Geochronometria 41: 178–201, DOI 10.2478/s13386-013-0160-3.LiBJacobsZRobertsRGLiSH2014Review and assessment of the potential of post-IR IRSL dating methods to circumvent the problem of anomalous fading in feldspar luminescenceGeochronometria4117820110.2478/s13386-013-0160-3Open DOISearch in Google Scholar
Li B, Jacobs Z, Roberts RG and Li SH, 2018. Single-grain dating of potassium-rich feldspar grains: Towards a global standardised growth curve for the post-IR IRSL signal. Quaternary Geochronology 45: 23–36, DOI 10.1016/j.quageo.2018.02.001.LiBJacobsZRobertsRGLiSH2018Single-grain dating of potassium-rich feldspar grains: Towards a global standardised growth curve for the post-IR IRSL signalQuaternary Geochronology45233610.1016/j.quageo.2018.02.001Open DOISearch in Google Scholar
Li B and Li SH, 2011a. Thermal stability of infrared stimulated luminescence of sedimentary K-feldspar. Radiation Measurements 46: 29–36, DOI 10.1016/j.radmeas.2010.10.002.LiBLiSH2011aThermal stability of infrared stimulated luminescence of sedimentary K-feldsparRadiation Measurements46293610.1016/j.radmeas.2010.10.002Open DOISearch in Google Scholar
Li B and Li SH, 2011b. Luminescence dating of K-feldspar from sediments: A protocol without anomalous fading correction. Quaternary Geochronology 6: 468–479, DOI 10.1016/j.quageo.2011.05.001.LiBLiSH2011bLuminescence dating of K-feldspar from sediments: A protocol without anomalous fading correctionQuaternary Geochronology646847910.1016/j.quageo.2011.05.001Open DOISearch in Google Scholar
Li B and Li SH, 2012a. A reply to the comments by Thomsen et al. on “Luminescence dating of K-feldspar from sediments: A protocol without anomalous fading correction”. Quaternary Geochronology 8: 49–51, DOI 10.1016/j.quageo.2011.10.001.LiBLiSH2012aA reply to the comments by Thomsen et al. on “Luminescence dating of K-feldspar from sediments: A protocol without anomalous fading correction”Quaternary Geochronology8495110.1016/j.quageo.2011.10.001Open DOISearch in Google Scholar
Li B and Li SH, 2012b. Luminescence dating of Chinese loess beyond 130 ka using the non-fading signal from K-feldspar. Quaternary Geochronology 10: 24–31, DOI 10.1016/j.quageo.2011.12.005.LiBLiSH2012bLuminescence dating of Chinese loess beyond 130 ka using the non-fading signal from K-feldsparQuaternary Geochronology10243110.1016/j.quageo.2011.12.005Open DOISearch in Google Scholar
Li B, Roberts RG, Jacobs Z and Li SH, 2015a. Potential of establishing a ‘global standardised growth curve’ (gSGC) for optical dating of quartz from sediments. Quaternary Geochronology 27: 94–104, DOI 10.1016/j.quageo.2015.02.011.LiBRobertsRGJacobsZLiSH2015aPotential of establishing a ‘global standardised growth curve’ (gSGC) for optical dating of quartz from sedimentsQuaternary Geochronology279410410.1016/j.quageo.2015.02.011Open DOISearch in Google Scholar
Li B, Roberts RG, Jacobs Z, Li SH and Guo YJ, 2015b. Construction of a ‘global standardised growth curve’ (gSGC) for infrared stimulated luminescence dating of K-feldspar. Quaternary Geochronology 27: 119–130, DOI 10.1016/j.quageo.2015.02.010.LiBRobertsRGJacobsZLiSHGuoYJ2015bConstruction of a ‘global standardised growth curve’ (gSGC) for infrared stimulated luminescence dating of K-feldsparQuaternary Geochronology2711913010.1016/j.quageo.2015.02.010Open DOISearch in Google Scholar
Li SH, Chen YY, Li B, Sun JM and Yang LR, 2007. OSL dating of sediments from deserts in northern China. Quaternary Geochronology 2: 23–28, DOI 10.1016/j.quageo.2006.05.034.LiSHChenYYLiBSunJMYangLR2007OSL dating of sediments from deserts in northern ChinaQuaternary Geochronology2232810.1016/j.quageo.2006.05.034Open DOISearch in Google Scholar
Murray AS and Funder S, 2003. Optically stimulated luminescence dating of a Danish Eemian coastal marine deposit: a test of accuracy. Quaternary Science Reviews 22: 1177–1183, DOI 10.1016/S0277-3791(03)00048-9.MurrayASFunderS2003Optically stimulated luminescence dating of a Danish Eemian coastal marine deposit: a test of accuracyQuaternary Science Reviews221177118310.1016/S0277-3791(03)00048-9Open DOISearch in Google Scholar
Peng J and Li B, 2017. Single-aliquot Regenerative-Dose (SAR) and Standardised Growth Curve (SGC) Equivalent Dose Determination in a Batch Model Using the R Package ‘numOSL’. Ancient TL 35(2): 32–53.PengJLiB2017Single-aliquot Regenerative-Dose (SAR) and Standardised Growth Curve (SGC) Equivalent Dose Determination in a Batch Model Using the R Package ‘numOSL’Ancient TL352325310.1016/j.radmeas.2016.09.006Search in Google Scholar
Prescott JR and Hutton JT, 1994. Cosmic-Ray Contributions to Dose-Rates for Luminescence and ESR Dating - Large Depths and Long-Term Time Variations. Radiation Measurements 23: 497–500, DOI 10.1016/1350-4487(94)90086-8.PrescottJRHuttonJT1994Cosmic-Ray Contributions to Dose-Rates for Luminescence and ESR Dating - Large Depths and Long-Term Time VariationsRadiation Measurements2349750010.1016/1350-4487(94)90086-8Open DOISearch in Google Scholar
Qin J, Chen J, Li Y and Zhou L, 2018. Initial sensitivity change of K-feldspar pIRIR signals due to uncompensated decrease in electron trapping probability: Evidence from radiofluorescence measurements. Radiation Measurements 120: 131–136, DOI 10.1016/j.radmeas.2018.06.017.QinJChenJLiYZhouL2018Initial sensitivity change of K-feldspar pIRIR signals due to uncompensated decrease in electron trapping probability: Evidence from radiofluorescence measurementsRadiation Measurements12013113610.1016/j.radmeas.2018.06.017Open DOISearch in Google Scholar
Rousseeuw PJ, Debruyne M, Engelen S and Hubert M, 2006. Robustness and outlier detection in chemometrics. Critical Reviews in Analytical Chemistry 36: 221–242, DOI 10.1080/10408340600969403.RousseeuwPJDebruyneMEngelenSHubertM2006Robustness and outlier detection in chemometricsCritical Reviews in Analytical Chemistry3622124210.1080/10408340600969403Open DOISearch in Google Scholar
Spooner NA, 1992. Optical Dating - Preliminary-Results on the Anomalous Fading of Luminescence from Feldspars. Quaternary Science Reviews 11: 139–145, DOI 10.1016/0277-3791(92)90055-D.SpoonerNA1992Optical Dating - Preliminary-Results on the Anomalous Fading of Luminescence from FeldsparsQuaternary Science Reviews1113914510.1016/0277-3791(92)90055-DOpen DOISearch in Google Scholar
Spooner NA, 1994. The Anomalous Fading of Infrared-Stimulated Luminescence from Feldspars. Radiation Measurements 23: 625–632, DOI 10.1016/1350-4487(94)90111-2.SpoonerNA1994The Anomalous Fading of Infrared-Stimulated Luminescence from FeldsparsRadiation Measurements2362563210.1016/1350-4487(94)90111-2Open DOISearch in Google Scholar
Stevens T, Buylaert JP, Thiel C, Ujvari G, Yi S, Murray AS, Frechen M and Lu H, 2018. Ice-volume-forced erosion of the Chinese Loess Plateau global Quaternary stratotype site. Nature Communications 9: 983, DOI 10.1038/s41467-018-03329-2.StevensTBuylaertJPThielCUjvariGYiSMurrayASFrechenMLuH2018Ice-volume-forced erosion of the Chinese Loess Plateau global Quaternary stratotype siteNature Communications998310.1038/s41467-018-03329-2584127929515117Open DOISearch in Google Scholar
Thiel C, Buylaert JP, Murray A, 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.ThielCBuylaertJPMurrayATerhorstBHoferITsukamotoSFrechenM2011Luminescence dating of the Stratzing loess profile (Austria) - Testing the potential of an elevated temperature post-IR IRSL protocolQuaternary International234233110.1016/j.quaint.2010.05.018Open DOISearch in Google Scholar
Thomsen KJ, Murray AS and Jain M, 2011. Stability of IRSL Signals from Sedimentary K-Feldspar Samples. Geochronometria 38: 1–13, DOI 10.2478/s13386-011-0003-z.ThomsenKJMurrayASJainM2011Stability of IRSL Signals from Sedimentary K-Feldspar SamplesGeochronometria3811310.2478/s13386-011-0003-zOpen DOISearch in Google Scholar
Thomsen KJ, Murray AS, Jain M and Botter-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.ThomsenKJMurrayASJainMBotter-JensenL2008Laboratory fading rates of various luminescence signals from feldspar-rich sediment extractsRadiation Measurements431474148610.1016/j.radmeas.2008.06.002Open DOISearch in Google Scholar
Timar-Gabor A and Wintle AG, 2013. On natural and laboratory generated dose response curves for quartz of different grain sizes from Romanian loess. Quaternary Geochronology 18: 34–40, DOI 10.1016/j.quageo.2013.08.001.Timar-GaborAWintleAG2013On natural and laboratory generated dose response curves for quartz of different grain sizes from Romanian loessQuaternary Geochronology18344010.1016/j.quageo.2013.08.001Open DOISearch in Google Scholar
Wallinga J, Murray A and Duller G, 2000. Underestimation of equivalent dose in single-aliquot optical dating of feldspars caused by preheating. Radiation Measurements 32: 691–695, DOI 10.1016/S1350-4487(00)00127-X.WallingaJMurrayADullerG2000Underestimation of equivalent dose in single-aliquot optical dating of feldspars caused by preheatingRadiation Measurements3269169510.1016/S1350-4487(00)00127-XOpen DOISearch in Google Scholar
Wintle AG, 1973. Anomalous Fading of Thermoluminescence in Mineral Samples. Nature 245: 143–144, DOI 10.1038/245143a0.WintleAG1973Anomalous Fading of Thermoluminescence in Mineral SamplesNature24514314410.1038/245143a0Open DOISearch in Google Scholar
Wintle AG and Murray AS, 2006. A review of quartz optically stimulated luminescence characteristics and their relevance in single-aliquot regeneration dating protocols. Radiation Measurements 41: 369–391, DOI 10.1016/j.radmeas.2005.11.001.WintleAGMurrayAS2006A review of quartz optically stimulated luminescence characteristics and their relevance in single-aliquot regeneration dating protocolsRadiation Measurements4136939110.1016/j.radmeas.2005.11.001Open DOISearch in Google Scholar
Zhang JJ, 2018. Behavior of the electron trapping probability change in IRSL dating of K-feldspar: A dose recovery study. Quaternary Geochronology 44: 38–46, DOI 10.1016/j.quageo.2017.12.001.ZhangJJ2018Behavior of the electron trapping probability change in IRSL dating of K-feldspar: A dose recovery studyQuaternary Geochronology44384610.1016/j.quageo.2017.12.001Open DOISearch in Google Scholar
Zhang JJ and Li SH, 2019. Constructions of standardised growth curves (SGCs) for IRSL signals from K-feldspar, plagioclase and poly-mineral fractions. Quaternary Geochronology 49: 8–15, DOI 10.1016/j.quageo.2018.05.015.ZhangJJLiSH2019Constructions of standardised growth curves (SGCs) for IRSL signals from K-feldspar, plagioclase and poly-mineral fractionsQuaternary Geochronology4981510.1016/j.quageo.2018.05.015Open DOISearch in Google Scholar
Zhao H and Li SH, 2005. Internal dose rate to K-feldspar grains from radioactive elements other than potassium. Radiation Measurements 40: 84–93, DOI 10.1016/j.radmeas.2004.11.004.ZhaoHLiSH2005Internal dose rate to K-feldspar grains from radioactive elements other than potassiumRadiation Measurements40849310.1016/j.radmeas.2004.11.004Open DOISearch in Google Scholar