Index of Authors in Ancient TL 1977-2007
In 1996, Ancient TL published an index of authors for the period from 1977 to 1996 (Volume 14, No.3, p.23). That list has been augmented with the contents of Volumes 15 (1997) to the present issue (Volume 25, 2007), and the contents of the list are given below in a format that can be searched using standard web browsers. As well as allowing people to search for specific authors, words in the title of the paper can also be searched (Ctrl-F). All papers are now available electronically through the Ancient TL website - thanks to Daniel Richter for scanning the first 18 issues (1977 to 1982): for these papers published prior to 1983, clicking on a hyperlink will bring up a PDF file of the whole issue.
Also available is an EndNote file of all the papers in Ancient TL. This file was created by Daniel Richter and kindly made available to Ancient TL readers. In order to use this file, you will need to download it to your own computer, and then copy the unzipped files to a directory on your own computer. You will also need to have access to the EndNote software package.
Zipped ENDNOTE file of papers in Ancient TL
Adamiec G.
Dose rate conversion factors: update; Ancient TL, 1998, Vol. 16, No.2.
Agrawal D. P.
Physical Research Laboratory TL Dates-1981 (I); Ancient TL, 1981, No.14.
Physical Research Laboratory TL Dates-1981 (II); Ancient TL, 1981, No.15.
Aitken M. J.
Americium - 241 for Alpha Irradiations; Ancient TL, 1978, No.3.
The alpha particle response of fluorite; Ancient TL, 1979, No.9.
Zero-glow Monitoring (ZGM); Ancient TL. 1979, No.9.
TL dating in China; Ancient TL, 1980, No.13.
Non-linear growth: allowance for alpha particle contribution; Ancient TL, 1984, Vol. 2, No.1.
Alpha particle effectiveness: numerical relationship between systems; Ancient TL, 1985, Vol. 3, No.3.
Alpha dose to a thin layer; Ancient TL, 1987, Vol. 5, No.3.
Pairs precision required in alpha counting; Ancient TL, 1990, Vol. 8, No.2.
Moisture correction for annual gamma dose; Ancient TL, 1990, Vol. 8, No.2.
The hypothesis of mid-term fading and its trial on Chinese loess; Ancient TL, 1991, Vol. 9, No.2.
Symbols in TL and optical dating: provisional list; Ancient TL, 1992, Vol. 10, No.1.
Dose rate conversion factors: update; Ancient TL, 1998, Vol. 16, No.2.
The use of sodium lamps for low-intensity laboratory safelighting for optical dating; Ancient TL, 2000, Vol. 18, No.2.
Akber R. A.
Polonium loss from glasses prepared for alpha counting; Ancient TL, 1984, Vol. 2, No.1.
Armitage S.J.
A user defined command for pulsed-irradiation on Risø TL/OSL readers; Ancient TL, 2004, Vol. 22, No.1.
Arnold L.
Detection of far-red IRSL from loess; Ancient TL, 2002, Vol. 20, No.2.
Bailey R.
Optical detrapping of charge from the 110°C quartz TL region; Ancient TL, 1997, Vol. 15, No.1.
Depletion of the quartz OSL signal using low photon energy stimulation; Ancient TL, 1998, Vol. 16, No. 2.
Confirmation of the backscattered beta dose enhancement rates based on single aliquot regeneration (SAR) analysis of quartz sand and silt; Ancient TL, 2001, Vol. 19, No.2.
Detection of far-red IRSL from loess; Ancient TL, 2002, Vol. 20, No.2.
Inductively-coupled plasma mass spectrometry (ICP-MS) for dose rate determination: some guidelines for sample preparation and analysis; Ancient TL, 2003, Vol. 21, No.1.
Bailiff I K.
TL colour: High vs. low dose measurements and the pre-dose mechanism; Ancient TL, 1978, No.2.
A beta irradiator for use in TL dating; Ancient TL, 1980, No.10.
Emission spectrum of the ‘Facey’ light source; Ancient TL, 1980, No.12.
TL Dating service at the Durham TL laboratory; Ancient TL, 1983, Vol. 1, No.2.
European Network on Thermoluminescence Applied to Archaeology; Ancient TL, 1986, Vol.4, No.2.
The use of LEDs as an excitation source for photoluminescence dating of sediments; Ancient TL, 1989, Vol. 7, No.1.
Balescu S.
Palaeographical and stratigraphical inferences from TL properties of Saalian & Weichselian loess of NW Europe; Ancient TL, 1986, Vol. 4, No.1.
TL stratigraphy of loesses: quartz and feldspar dosemeters within loessic deposits from Normandy and France; Ancient TL, 1986, Vol. 4, No.3.
Baly L.
Design of a blue LED stimulation unit with a highly uniform illumination pattern; Ancient TL, 2004, Vol. 22, No.2.
Ballarini M.
Spatial variation of dose rate from beta sources as measured using single grains; Ancient TL, 2006, Vol. 24, No.1.
Barnett, S.
Date list 6: Luminescence dates for Late Bronze Age and Iron Age pottery assemblages in northern and eastern Britain; Ancient TL, 1999, Vol. 17, No.1.
Barbetti M.
More on filters for laboratory illumination; Ancient TL, 1979, No.7.
Baril M.R.
The K content of the K-feldspars being measured in optical dating or in thermoluminescence dating; Ancient TL, 1997, Vol. 15, No. 1.
Yet another note on laboratory lighting; Ancient TL, 2002, Vol. 20, No.2.
Barrientos Echegaray B.
Universidad Nacional de Ingeniena (Peru) TL Dates-1983 (1); Ancient TL, 1983, Vol. 1, No.1.
Bechtel F.
Non linear approach of TL response to dose: polynomial approximation; Ancient TL, 1996, Vol. 14, No. 2
Bell W. T.
Attenuation factors for the absorbed radiation dose in quartz inclusions for thermoluminescence dating; Ancient TL, 1979, No.8.
Beta source calibration: Some problems associated with the utilization of the gamma irradiation of quartz and other phosphors (Part 1); Ancient TL. 1980, No.10.
Beta source calibration: Some problems associated with the utilisation of the gamma irradiation of quartz and other phosphors (Part II); Ancient TL, 1980, No.11.
Alpha dose attenuation in quartz grains for thermoluminescence dating; Ancient TL, 1980, No.12.
Benites Legoas S.
Universidad Nacional de Ingenieria (Peru) TL Dates-1983 (1); Ancient TL, 1983, Vol. 1, No.1.
Bentourkia M.
Further comments on decay kinetics of isotropic radicals in carbonates; Ancient TL, 1999, Vol. 17, No.1.
Berger G. W.
Isolation of silt-sized quartz from sediments; Ancient TL, 1980, No.11.
5 Spurious tidbits; Ancient TL, 1982, No.18.
TL behaviour of some limestone rocks; Ancient TL, 1984, Vol. 2, No.2.
Linear regression of TL Data; Ancient TL, 1986, Vol. 4, No.2.
Treatment of error in plateau values - caveat emptor; Ancient TL. 1989, Vol. 7, No.2.
Test data for exponential fits; Ancient TL, 1989, Vol. 7, No.3.
Regression and error analysis for a saturating-exponential-plus-linear model; Ancient TL 1990, Vol. 8, No.3.
Scatter in luminescence data for optical dating - some models; Ancient TL, 1995, Vol. 13, No.1.
A simple staining method for K-feldspars before sample preparation for IR-OSL Dating; Ancient TL, 1996, Vol. 14, No.1.
Comment on 'Non linear approach of TL response to dose: polynomial approximation. Ancient TL, 14, 7-14 (1996) Guibert P., Vartanian E., Bechtel F. and Schvoerer M.'; Ancient TL, 1996, Vol. 14, No. 3.
Beukens R. P.
Aqua Regia wash for the large grain dating method; Ancient TL, 1978, No.4.
Bhandari N.
Physical Research Laboratory TL Dates-1981 (I ); Ancient TL, 1981, No.14.
Blanchard H.
The luminescence dating laboratory at the University of Bonn: equipment and procedures; Ancient TL, 2002, Vol. 20, No.2.
Bode T.
The luminescence dating laboratory at the University of Bonn: equipment and procedures; Ancient TL, 2002, Vol. 20, No.2.
Bøtter-Jensen L.
Revisiting TL: Dose measurement beyond the OSL range using SAR; Ancient TL, 2005, Vol. 23, No.1.
Bowman S. G. E.
A new proposal for the expression of alpha efficiency in TL dating; Ancient TL. 1984, Vol.2, No.1.
Bray H.
Inductively-coupled plasma mass spectrometry (ICP-MS) for dose rate determination: some guidelines for sample preparation and analysis; Ancient TL, 2003, Vol. 21, No.1.
Brennan B. J.
Alpha dose rate calculations in speleothem calcite: values of η and keff/kref; Ancient TL, 1989, Vol. 7, No.1.
Ranges of alpha particles in various media; Ancient TL, 1989, Vol. 7, No.2.
Estimation of accumulated dose and its uncertainties: potential pitfalls in curve fitting; Ancient TL, 1992, Vol. 10, No.3.
The ROSY ESR dating program; Ancient TL, 1999, Vol. 17, No.2.
Brito 0.
Thermoluminescent Dating of Ancient Toconce Potteries; Ancient TL, 1980, No.10.
Pontificia Universidad Catélica do Chile TL Dates, 1983 (ll);Ancient TL, 1983, Vol. 1, No.2.
Brown S.M.
Spectral emission properties of some blue light-emitting diodes; Ancient TL, 1999, Vol 17, No.1
Brown T. A.
5 Spurious tidbits; Ancient TL, 1982, No.18.
Bubenzer O.
Manual coring equipment for the collection of stratified samples from dry sand dunes; Ancient TL, 2001, Vol. 19, No.1.
Bulur E.
Comment on ‘A cautionary note: apparent sensitivity change resulting from curve fitting’; Ancient TL, 1992, Vol. 10, No.1.
Bürgi, A.
Cosmic ray dose rate determination using a portable gamma-ray spectrometer; Ancient TL, 1991, Vol. 9, No.1.
Burt E. S.
Sherd water uptake measurements; Ancient TL, 1979, No.7.
Bussell G. D.
Zero-glow monitoring (ZGM); Ancient TL, 1979, No.9.
Cardoso C.O.
Source calibrations and blind test results from the new luminescence dating laboratory at the Instituto Tecnologico e Nuclear, Sacavem, Portugal; Ancient TL, 2003, Vol. 21, No.1.
Carriveau G. W.
Cleaning quartz grains; Ancient TL, 1977, No.1.
Report on 1979 Archaeometry Symposium; Ancient TL, 1979, No.7.
Sherd water uptake measurements; Ancient TL, 1979, No.7.
Even more on filters for laboratory illumination; Ancient TL, 1979, No.9.
Casswell J.
Spectral emission properties of some blue light-emitting diodes; Ancient TL, 1999, Vol 17, No.1
Chambers D. A.
An automated beta irradiator using a Sr90 foil source; Ancient TL, 1985, Vol. 3, No.3.
Chandel H.N.
An effective and reusable sampling pipe for luminescence dating; Ancient TL, 2006, Vol. 24, No.1.
Chen R.
A model for mid-term fading in TL dating; Ancient TL, 1993, Vol. 11, No.1.
Chitambo M.L.
Procedures preparatory to setting up a luminescence pulsing system; Ancient TL, 2005, Vol. 23, No.2.
Choi J.H.
Analysis of quartz LM-OSL curves; Ancient TL, 2006, Vol. 24, No.1.
Clapp R.
An automated sample changer for Bruker ESR spectrometers; Ancient TL, 1996, Vol. 14, No.1.
Clarke M. L.
Significant peak enhancement of the natural TL signal observed after short term storage at 75°C; Ancient TL, 1989, Vol. 7, No.2.
Clay R.W.
Cosmic ray dose rates for luminescence and ESR dating: measured with a scintillation counter; Ancient TL, 2000, Vol. 18, No.1.
Concha G.
Thermoluminescent dating of ancient Toconce potteries; Ancient TL, 1980, No.10.
Cutter J.
A test of the single aliquot method of equivalent dose determination for feldspar stimulated by green light; Ancient TL. 1994, Vol. 12, No.2.
Davis D. A.
A simple staining method for K-feldspars before sample preparation for IR-OSL dating; Ancient TL, 1996, Vol. 14, No.1.
Debenham N. C.
More hints on spurious reduction; Ancient TL, 1978, No.5.
Thermoluminescence dating of loess deposition in Normandy; Ancient TL. 1985, Vol. 3, No.1.
Comments on extrapolation methods of dating sediments by TL; Ancient TL. 1985, Vol. 3, No.2.
Study of the effect of pre-annealing on sediment TL using a technique of glow curve analysis; Ancient TL, 1987, Vol. 5, No.1.
Debuyst R.
Dispersive decay kinetics and dose response of isotropic radicals in natural carbonates; Ancient TL, 1997, Vol. 15, Nos.2-3.
Further comments on decay kinetics of isotropic radicals in carbonates; Ancient TL, 1999, Vol. 17, No.1.
Dejehet F.
Dispersive decay kinetics and dose response of isotropic radicals in natural carbonates; Ancient TL, 1997, Vol. 15, Nos.2-3.
Denby P.M.
Revisiting TL: Dose measurement beyond the OSL range using SAR; Ancient TL, 2005, Vol. 23, No.1.
Deza A.
Thermoluminescent dating of ancient Toconce potteries; Ancient TL, 1980, No.10.
Pontificia Universidad Católica de Chile TL Dates, 1983 (II); Ancient TL. 1983, Vol. 1, No.2.
Dijkmans J. W. A.
Preliminary study of the thermoluminescence behaviour of quartz from a Dutch cover sand; Ancient TL, 1985, Vol. 3, No.2.
Dose-rate comparisons of sands for thermoluminescence dating; Ancient TL, 1988, Vol. 6, No.2.
Fractional bleaching of potassium feldspar from sediments and its role in equivalent dose determination; Ancient TL, 1989, Vol. 7, No.1.
Dikau R.
The luminescence dating laboratory at the University of Bonn: equipment and procedures; Ancient TL, 2002, Vol. 20, No.2.
Dimotikali D.
A new technique for measuring the natural dose in TL dating and its application in the dating of a mortar containing ceramic fragments; Ancient TL, 1997, Vol. 15, Nos.2-3.
Driver H. S. T.
Zero-glow monitoring (ZGM); Ancient TL, 1979, No.9.
Duller G. A. T.
The effect of optical absorption on luminescence dating; Ancient TL, 1991, Vol. 9, No.3.
The use of a single aliquot method of intercalibration between radioactive sources; Ancient TL, 1992, Vol. 10, No.1.
A user defined command for pulsed-irradiation on Risø TL/OSL readers; Ancient TL, 2004, Vol. 22, No.1.
Analysis of quartz LM-OSL curves; Ancient TL, 2006, Vol. 24, No.1.
Assessing the error on equivalent dose estimates derived from single aliquot regenerative dose measurements; Ancient TL, 2007, Vol.25, No.1.
Dunnel R. C.
Recent addition of potassium: a potential source of error in calculating TL age; Ancient TL, 1988, Vol. 6, No.1.
Dupuis C.
Paleographical and stratigraphical inferences from TL properties of Saalian & Weichselian loess of NW Europe; Ancient TL, 1986, Vol. 4, No.1.
TL stratigraphy of loesses: quartz and feldspar dosemeters within loessic deposits from Normandy and France; Ancient TL, 1986, Vol. 4, No.3.
Erfurt G.
IRSAR – A single aliquot regenerative-dose dating protocol applied to the infrared radiofluorescence (IR-RF) of coarse-grain K-feldspar; Ancient TL, 2003, Vol. 21, No.1.
Evin J.
Comments on the quotation of TL dates; Ancient TL, 1983, Vol. 1, No.3.
Fain J.
The use of flotation techniques to separate quartz from feldspar; Ancient TL, 1983, Vol. 1, No.1.
Comments on the quotation of TL dates; Ancient TL, 1983, Vol. 1, No.3.
TL dating in the Holocene using red TL from quartz; Ancient TL, 1992, Vol. 10, No.3.
Exponential regressions for TL/ESR using regenerated dose response curves; Ancient TL. 1993, Vol. 11, No.1.
Sun bleaching of the red TL of quartz: preliminary observations; Ancient TL, 1994, Vol. 12, No.1.
A stable reference light source; Ancient TL, 2002, Vol. 20, No.2.
Falgueres C.
Field gamma dose-rate measurement with a NaI(Tl) detector: re-evaluation of the "threshold" technique; Ancient TL, 2007, Vol. 25, No.1.
Fattahi M.
Red thermoluminescence (RTL) in volcanic quartz: development of a high sensitivity detection system and some preliminary findings; Ancient TL, 2000, Vol. 18, No.2.
Detection of far-red IRSL from loess; Ancient TL, 2002, Vol. 20, No.2.
Photomultiplier and filter combinations for the detection of relatively long wavelength (>600 nm) luminescence emissions from feldspar; Ancient TL, 2003, Vol. 21, No.1.
Red luminescence emission from potassium feldspars stimulated by infrared; Ancient TL, 2004, Vol. 22, No.2.
Feathers J. K.
Recent addition of potassium: a potential source of error in calculating TL age; Ancient TL, 1988, Vol. 6, No.1.
Important date/strange material; Ancient TL, 1993, Vol. 11, No.2.
Date List 7: Luminescence dates for Prehistoric and Proto-Historic pottery from the American Southwest; Ancient TL, 2000, Vol. 18, No.2.
Fedorowicz S.
TL studies of Quaternary sediments at the University of Gdansk; Ancient TL, 1985, Vol. 3, No.3.
Fenton C.
Internal dose rates of quartz grains separated from fault gouge; Ancient TL, 1990, Vol.8, No.3.
Finley S.
ESR analysis of fluorescence bands in corals; Ancient TL, 1999, Vol. 17, No.2.
Flisch M.
Cosmic ray dose rate determination using a portable gamma-ray spectrometer; Ancient TL, 1991, Vol.9, No.1.
Forman S.L.
The age of the Diring Yuriakh archaeological site: reply to Huntley and Richards; Ancient TL, 1997, Vol. 15, Nos.2-3.
Fox P. J.
Dating quartz sediments using the 325°C TL peak: new spectral data; Ancient TL, 1990, Vol. 8, No.3.
Franklin A. D.
Extrapolation errors in linear regression; Ancient TL. 1986, Vol. 4, No.2.
Experimental TL techniques for the Inclusion method; Ancient TL, 1987, Vol.5, No.3.
Isolation of the rapidly bleaching peak in quartz TL. glow curves; Ancient TL, 1990, Vol. 8, No.3.
Normalization of inclusion size quartz TL data; Ancient TL, 1992, Vol. 10, No.1.
A model for mid-term fading in TL dating; Ancient TL, 1993, Vol. 11, No.1
Important date/strange material; Ancient TL, 1993, Vol. 11, No.2.
Lack of interaction between the rapidly and slowly bleaching TL peaks in an Australian quartz; Ancient TL, 1994, Vol. 12, No.1.
Franks M.
Some characteristics of infrared emitting diodes relevant to luminescence dating; Ancient TL, 1990, Vol. 8, No.3.
Frechen M.
Improvements in sample preparation for the fine grain technique; Ancient TL, 1994, Vol. 14, No.2.
Froget L.
Distinguishing burnt from partly bleached unburnt quartz pebbles of Pedra Furada, Brazil; Ancient TL, 1998, Vol. 16, No.1.
Fuchs M.
Residual luminescence signals of recent river flood sediments: A comparison between quartz and feldspar of fine- and coarse-grain sediments; Ancient TL, 2005, Vol. 23, No.1.
Galbraith R.
Single-aliquot and single-grain optical dating confirm thermoluminescence age estimates at Malakunanja II rock shelter in northern Australia; Ancient TL, 1998, Vol. 16, No. 1.
A note on the variance of a background corrected OSL count; Ancient TL, 2002, Vol. 20, No.2.
A simple homogeneity test for estimates of dose obtained using OSL; Ancient TL, 2003, Vol. 21, No.2.
Galloway R. B.
Notes on a recently constructed TL system; Ancient TL, 1990, Vol. 8, No.2.
Alternative laboratory illumination: ‘gold’ fluorescent tubes; Ancient TL, 1991, Vol. 9, No.1.
The bleaching of latent optically stimulated luminescence; Ancient TL, 1991, Vol.9, No.3.
The influence of sample treatment on feldspar dose response; Ancient TL 1994, Vol. 12, No.2.
A test of the single aliquot method of equivalent dose determination for feldspar stimulated by green light; Ancient TL, 1994, Vol. 12, No.2.
Concerning the normalization of additive dose optically stimulated luminescence data from quartz; Ancient TL, 1996, Vol. 14, No. 2
Green light-emitting diodes used for optical stimulation of luminescence; Ancient TL, 1998, Vol. 16, No. 1.
Spectral emission properties of some blue light-emitting diodes; Ancient TL, 1999, Vol 17, No.1
Does limestone show useful optically stimulated luminescence?; Ancient TL, 2002, Vol. 20, No.1.
Gaulin B.
An inexpensive method for separating quartz from clay; Ancient TL, 1981, No.15.
Gibling M.R.
Revisiting TL: Dose measurement beyond the OSL range using SAR; Ancient TL, 2005, Vol. 23, No.1.
Goble R.J.
A linear modulation OSL study of the unstable ultrafast component in samples from Glacial Lake Hitchcock, Massachusetts, USA; Ancient TL, 2006, Vol. 24, No.2.
Goedicke C.
Some remarks on fine-grain sample preparation for TL dating; Ancient TL, 1986, Vol. 4, No.3.
Göksu H. Y.
110°C TL peak records the ancient heat treatment of flint; Ancient TL, 1989, Vol. 7, No.1.
Gonzalez Y.
Design of a blue LED stimulation unit with a highly uniform illumination pattern; Ancient TL, 2004, Vol. 22, No.2.
Gottfried M.
Important date/strange material; Ancient TL, 1993, Vol. 11, No.2.
Gouveia M.A.
Source calibrations and blind test results from the new luminescence dating laboratory at the Instituto Tecnologico e Nuclear, Sacavem, Portugal; Ancient TL, 2003, Vol. 21, No.1.
Grün R.
Beta dose attenuation in thin layers; Ancient TL, 1986, Vol. 4, No.1.
Some remarks on ESR dating of bones; Ancient TL, 1987, Vol. 5, No.2.
Alpha dose attenuation in thin layers; Ancient TL, 1987, Vol. 5, No.3.
Internal dose rates of quartz grains separated from fault gouge; Ancient TL, 1990, Vol. 8, No.3.
Dose response of the paramagnetic centre at g = 2.0007 in corals; Ancient TL, 1990, Vol. 8, No.3.
ESR behaviour of the paramagnetic centre at g = 2.0018 in tooth enamel; Ancient TL, 1991, Vol. 9, No.2.
On the selection of dose points for saturating exponential ESR/TL dose response curves; Ancient TL, 1991, Vol. 9, No.3.
Simulations of saturating exponential ESR/TL dose response curves weighting of intensity values by inverse variance; Ancient TL, 1992, Vol. 10, No.3.
Suggestions for minimum requirements for reporting ESR age estimates; Ancient TL., 1992, Vol. 10, No.3.
Uncertainties involved in the measurement of TL intensities; Ancient TL, 1993, Vol. 11, No.1.
Collection of ESR samples from the interior of mammoth teeth causing minimal damage; Ancient TL, 1993, Vol. 11, No.2.
An alpha irradiator for ESR dating; Ancient TL, 1994, Vol. 12, No.2.
A cautionary note: use of water content’ and ‘depth for cosmic ray dose rate’ in AGE and DATA programs; Ancient TL, 1994, Vol. 12, No.2.
Semi non-destructive, single aliquot ESR dating; Ancient TL, 1995, Vol. 13, No.2.
Uranium and Thorium in the constituents of fossil teeth; Ancient TL, 1996, Vol. 14, No.1.
An automated sample changer for Bruker ESR spectrometers; Ancient TL, 1996, Vol. 14, No.1.
Dose determination on fossil tooth enamel using ESR spectrum deconvolution with Gaussian and Lorentzian peak shapes; Ancient TL, 1998, Vol. 16, No. 2.
ESR analysis of fluorescence bands in corals; Ancient TL, 1999, Vol. 17, No.2.
An alternative model for open system U-series/ESR age calculation: (closed system U-series)-ESR, CSUS-ESR; Ancient TL, 2000, Vol. 18, No. 1.
Dose evaluation on a fossil tooth using multiple and single powder aliquots as well as a fragment; Ancient TL, 2001, Vol. 19, No.1.
Gamma dosing and shielding of a human tooth by a mandible and skull cap: Monte Carlo simulations and implications for the accuracy of ESR dating of tooth enamel; Ancient TL, 2003, Vol. 21, No.2.
Guibert P.
Non linear approach of TL response to dose: polynomial approximation; Ancient TL, 1996, Vol. 14, No. 2
Haddon S.
Spectral emission properties of some blue light-emitting diodes; Ancient TL, 1999, Vol 17, No.1
Haidar S.
Phosphorescence spectra from alkali feldspars as they are cooled; Ancient TL, 2007, Vol 25, No.2
Hamel A.M.J.
A method for quickly estimating the equivalent dose in optical dating of K-feldspar; Ancient TL, 2003, Vol. 21, No.2.
Hancock R.G.V.
The Rb contents of the K-feldspar grains being measured in optical dating; Ancient TL, 2001, Vol. 19, No.2.
Hashimoto T.
Thermoluminescence and afterglow color images from ancient pottery pieces; Ancient TL, 2000, Vol. 18, No.1.
Color images of infrared stimulated luminescence (IRSL) from granite slices exposed to radiation; Ancient TL, 2002, Vol. 20, No.1.
Imaging and measurement of red-infrared stimulated luminescence (R-IRSL) from feldspar samples; Ancient TL, 2003, Vol. 21, No.1.
Preferable use of red-thermoluminescence (RTL)-dating for quartz extracts from archaeologically burnt pottery - comparison of RTL and BTL (blue-TL) measurements using single-aliquot regenerative-dose (SAR) method; Ancient TL, 2003, Vol. 21, No.2.
Haskell E.H.
Predose analysis of brick samples: Feasibility for fallout dosimetry; Ancient TL. 1980, No.12.
An assessment of the Levenburg-Marquardt fitting algorithm on saturating exponential data sets; Ancient TL. 1998, Vol. 16, No.2.
Haustein M.
Influence of radiation used by the security control at airports on the TL signal of quartz; Ancient TL, 2003, Vol. 21, No.1.
Hayes R.B.
An assessment of the Levenburg-Marquardt fitting algorithm on saturating exponential data sets; Ancient TL. 1998, Vol. 16, No.2.
Hedgcock F. T.
An inexpensive method for separating quartz from clay; Ancient TL. 1981, No.15.
Hilger W.
The luminescence dating laboratory at the University of Bonn: equipment and procedures; Ancient TL, 2002, Vol. 20, No.2.
Hodgson J. C.
A test of the single aliquot method of equivalent dose determination for feldspar stimulated by green light; Ancient TL, 1994, Vol. 12, No.2.
Hong D.G.
Concerning the normalization of additive dose optically stimulated luminescence data from quartz; Ancient TL, 1996, Vol. 14, No. 2
Hornyak W. F.
Experimental TL techniques for the Inclusion method; Ancient TL, 1987, Vol. 5, No.3.
Isolation of the rapidly bleaching peak in quartz TL glow curves; Ancient TL 1990, Vol.8, No.3.
Normalisation of inclusion size quartz TL data; Ancient TL, 1992, Vol. 10, No.1.
A model for mid-term fading in TL dating; Ancient TL, 1993, Vol. 11, No.1
Important date/strange material; Ancient TL, 1993, Vol. 11, No.2.
Hosking P. L.
Estimation of accumulated dose and its uncertainties: potential pitfalls in curve fitting, Ancient TL, 1992, Vol. 10, No.3.
Hunter V.A.
Densities of modern and fossil dental tissues: significance to ESR dating of tooth enamel; Ancient TL, 1997, Vol. 15, Nos. 2-3.
Huntley D. J.
Experiences with an alpha counter, Ancient TL, 1977, No.1.
The effect of sample reflectance in alpha counting; Ancient TL, 1978, No.4.
Isolation of silt-sized quartz from sediments; Ancient TL, 1980, No.11.
5 Spurious tidbits; Ancient TL, 1982, No.18.
A new proposal for the expression of alpha efficiency in TL dating; Ancient TL 1984, Vol.2, No.1.
A note on the temperature dependence of anomalous fading; Ancient TL, 1985, Vol. 3, No.1.
The use of an image intensifier to study the TL intensity variability of individual grains; Ancient TL, 1985, Vol. 3, No.2.
Linear regression of TL data; Ancient TL, 1986, Vol. 4, No.2.
The Nucleus’ PCA board - a review; Ancient TL, 1988, Vol.6, No.2.
Treatment of error in plateau values - caveat emptor; Ancient TL, 1989, Vol.7, No.2.
Test data for exponential flts; Ancient TL, 1989, Vol. 7, No.3.
Infrared stimulation of quartz; Ancient TL, 1992, Vol. 10, No.2.
Estimation of equivalent dose in thermoluminescence dating - the Australian slide method; Ancient TL, 1993, Vol. 11, No.1.
Tests of luminescence dating making use of paleomagnetic reversals; Ancient TL, 1994, Vol. 12, No.2.
Thick-source alpha counting of peat; Ancient TL, 1994, Vol. 12, No.2.
Scatter in luminescence data for optical dating - some models; Ancient TL, 1995, Vol. 13, No.1.
The K content of the K-feldspars being measured in optical dating or in thermoluminescence dating; Ancient TL, 1997, Vol. 15, No. 1.
A proposal for dealing with anomalous fading; Ancient TL, 1997, Vol. 15, Nos. 2-3.
The age of the Diring Yuriakh archaeological site; Ancient TL, 1997, Vol. 15, Nos. 2-3.
Some notes on language; Ancient TL, 2001, Vol. 19, No.1.
The Rb contents of the K-feldspar grains being measured in optical dating; Ancient TL, 2001, Vol. 19, No.2.
Yet another note on laboratory lighting; Ancient TL, 2002, Vol. 20, No.2.
A method for quickly estimating the equivalent dose in optical dating of K-feldspar; Ancient TL, 2003, Vol. 21, No.2.
Anomalous fading parameters and activation energies of feldspars; Ancient TL, 2005, Vol. 23, No.1.
Thoughts arising from “Choi, Duller and Wintle: Analysis of quartz LM-OSL curves. Ancient TL 24, 9-20 (2006)”; Ancient TL, 2006, Vol. 24, No.2.
Phosphorescence spectra from alkali feldspars as they are cooled; Ancient TL, 2007, Vol 25, No.2
Response to Jain and Lindvold "Blue light stimulation and linearly modulated optically stimulated luminescence"; Ancient TL, 2007, Vol. 25, No.2.
Hütt G.
The validity of the laboratory reconstruction of palaeodose; Ancient TL, 1989, Vol. 7, No.2.
Infrared stimulated photoluminescence dating of sediments; Ancient TL, 1989, Vol. 7, No.3.
Regression analysis of exponential palaeodose growth curves; Ancient TL, 1990, Vol. 8, No.1.
Hutton J. T.
Polonium loss from glasses prepared for alpha counting; Ancient TL, 1984, Vol. 2, No.1.
A source of variability in the thermoluminescence of quartz; Ancient TL, 1988, Vol. 6, No.1.
Estimation of equivalent dose in thermoluminescence dating - the Australian slide method; Ancient TL, 1993, Vol. 11, No.1.
Huxtable .J.
Dose rate effects in quartz, some observations; Ancient TL, 1979, No.9.
The reproducibility of TL data from fine grain discs; Ancient TL, 1980, No.10.
Light bleaching of archaeological flint samples: A warning; Ancient TL. 1981, No.16.
Idrissi S.
Dispersive decay kinetics and dose response of isotropic radicals in natural carbonates; Ancient TL, 1997, Vol. 15, Nos.2-3.
Further comments on decay kinetics of isotropic radicals in carbonates; Ancient TL, 1999, Vol. 17, No.1.
Ingram S.
Confirmation of the backscattered beta dose enhancement rates based on single aliquot regeneration (SAR) analysis of quartz sand and silt; Ancient TL, 2001, Vol. 19, No.2.
Jaek J.
The validity of the laboratory reconstruction of palaeodose; Ancient TL, 1989, Vol. 7, No.2.
Infrared stimulated photoluminescence dating of sediments; Ancient TL, 1989, Vol. 7, No.3.
Jain M.
Revisiting TL: Dose measurement beyond the OSL range using SAR; Ancient TL, 2005, Vol. 23, No.1.
Blue light stimulation and linearly modulated optically stimulated luminescence; Ancient TL, 2007, Vol. 25, No.2.
Jensen H. E.
More on filters for laboratory illumination; Ancient TL, 1979, No.7.
Reduction of spurious TL in atmospheres; Ancient TL, 1979, No.7.
Jinsheng Hu
Tests of luminescence dating making use of paleomagnetic reversals; Ancient TL, 1994, Vol. 12, No.2.
Jones R.
Single-aliquot and single-grain optical dating confirm thermoluminescence age estimates at Malakunanja II rock shelter in northern Australia; Ancient TL, 1998, Vol. 16, No. 1.
Kasper H.U.
Comparison of dose rate determination using high-resolution gamma spectrometry and inductively coupled plasma-mass spectrometry; Ancient TL, 2001, Vol. 19, No.1.
Katzenberger-Apel O.
An alpha irradiator for ESR dating; Ancient TL, 1994, Vol. 12, No.2.
Kaul I. K.
A technique for the generation of three dimensional isometric glow curves from conventional glow curve records; Ancient TL, 1988, Vol. 6, No.2.
Kaylor R.
Important date/strange material; Ancient TL, 1993, Vol. 11, No.2.
Kenner G.H.
An assessment of the Levenburg-Marquardt fitting algorithm on saturating exponential data sets; Ancient TL. 1998, Vol. 16, No.2.
Kirkey J. J.
The use of an image intensifier to study the TL intensity variability of individual grains; Ancient TL, 1985, Vol. 3,No.2.
Kornmeier C. M.
A correction procedure for ambient activation in pre-dose dating; Ancient TL, 1985, Vol. 3, No.3.
Kortekaas M.
A method for the removal of mica from quartz separates; Ancient TL, 2005, Vol. 23, No.2.
Krbetschek M.
Influence of radiation used by the security control at airports on the TL signal of quartz; Ancient TL, 2003, Vol. 21, No.1.
IRSAR – A single aliquot regenerative-dose dating protocol applied to the infrared radiofluorescence (IR-RF) of coarse-grain K-feldspar; Ancient TL, 2003, Vol. 21, No.1.
Kuhn R.
Procedures used for optically and infrared stimulated luminescence dating of sediments in Heidelberg; Ancient TL, 1996, Vol. 14, No.3.
Lai Z-P.
Detection of far-red IRSL from loess; Ancient TL, 2002, Vol. 20, No.2.
Lal B. B.
Physical Research Laboratory TL Dates-1981 (I ); Ancient TL, 1981, No.14.
Lamothe M.
Using 600-650 nm light for IRSL sample preparation; Ancient TL, 1995, Vol. 13, No.1.
Red luminescence emission from potassium feldspars stimulated by infrared; Ancient TL, 2004, Vol. 22, No.2.
Lang A.
Procedures used for optically and infrared stimulated luminescence dating of sediments in Heidelberg; Ancient TL, 1996, Vol. 14, No.3.
Improvements in infra-red dating of partially bleached sediments - the "Differential Partial Bleach Technique"; Ancient TL, 1998, Vol. 16, No. 2.
Removal of the feldspar-derived luminescence component from polymineral fine silt samples for optical dating applications: evaluation of chemical treatment protocols and quality control procedures; Ancient TL, 2004, Vol. 22, No.1.
The dose rate of beta sources for optical dating applications: A comparison between fine silt and fine sand quartz; Ancient TL, 2004, Vol. 22, No.2.
The alpha effectiveness in silt-sized quartz: New data obtained by single and multiple aliquot protocols; Ancient TL, 2006, Vol. 24, No.2.
Laslett G.
Single-aliquot and single-grain optical dating confirm thermoluminescence age estimates at Malakunanja II rock shelter in northern Australia; Ancient TL, 1998, Vol. 16, No. 1.
Lavallée D.
Universidad Nacional de Ingeniera (Peru) TL Dates - 1984 (1); Ancient TL, 1984, Vol.2, No.1.
Létuvé R.
A simple semi-automatic TL apparatus of new design; Ancient TL, 1994, Vol. 12, No.2.
Leung P.L.
A regression method for evaluation of palaeodose in the pre-dose technique; Ancient TL, 1997, Vol. 15, No.1.
Li B.
A note on estimating the error when subtracting background counts from weak OSL signals; Ancient TL, 2007, Vol. 25, No.1.
Li Hu Hou
Isolation of fine grains by dilute Aqua Regia; Ancient TL, 1981, No.14.
Li Sheng-Hua
A cautionary note: apparent sensitivity change resulting from curve fitting; Ancient TL, 1991, Vol. 9, No.2.
Removal of the thermally unstable signal in optical dating of K-feldspar; Ancient TL, 1991, Vol. 9, No.2.
Sensitivity changes of luminescence signals from colluvial sediments after different bleaching procedures; Ancient TL, 1991, Vol. 9, No.3.
A model for sensitivity change of IRSL signals; Ancient TL, 1993, Vol. 11, No.2.
Use of UV-regenerated IRSL for normalization; Ancient TL, 1994, Vol. 12, No.2.
Lian O. B.
Tests of luminescence dating making use of paleomagnetic reversals; Ancient TL, 1994, Vol. 12, No.2.
Lindauer S.
Procedures used for optically and infrared stimulated luminescence dating of sediments in Heidelberg; Ancient TL, 1996, Vol. 14, No.3.
Lindvold L.R.
Blue light stimulation and linearly modulated optically stimulated luminescence; Ancient TL, 2007, Vol. 25, No.2.
Liritzis Y.
110°C quartz peak: A new normalisation factor; Ancient TL, 1980, No.11.
An indication of universal linear variation of K20 percentage with beta dose rates in ceramics: preliminary results; Ancient TL, 1985, Vol. 3, No.2.
Lister A.
Collection of ESR samples from the interior of mammoth teeth causing minimal damage; Ancient TL, 1993, Vol. 11, No.2.
Lopez Carranza E.
Universidad Nacional de Ingenieria (Peru) TL Dates - 1983 (1); Ancient TL, 1983, Vol. 1, No.1.
Universidad Nacional de Ingenieria (Peru) TL Dates - 1984 (1); Ancient TL, 1984, Vol.2, No.1.
Luff B. J.
High sensitivity TL spectra of quartz and feldspar; Ancient TL, 1993, Vol. 11, No.2.
Lyashenko U. G.
The effect of shallow traps: a possible source of error in TL dating of sediments; Ancient TL, 1992, Vol. 10, No.2.
Lyons R. G.
Alpha effectiveness in ESR dating: a preliminary note on energy dependence; Ancient TL, 1987, Vol. 5, No.3.
Alpha dose rate calculations in speleothem calcite: values of η and keff/kref; Ancient TL, 1989, Vol. 7, No.1.
Ranges of alpha particles in various media; Ancient TL, 1989, Vol. 7, No.2.
A device for centering samples in ESR measurement; Ancient TL, 1992, Vol. 10, No.1.
Estimation of accumulated dose and its uncertainties: potential pitfalls in curve fitting; Ancient TL, 1992, Vol. 10, No.3.
Mainz E.
The luminescence dating laboratory at the University of Bonn: equipment and procedures; Ancient TL, 2002, Vol. 20, No.2.
Maniatis Y.
A new technique for measuring the natural dose in TL dating and its application in the dating of a mortar containing ceramic fragments; Ancient TL, 1997, Vol. 15, Nos.2-3.
Authenticating marble structures with thermoluminescence; Ancient TL, 2002, Vol. 20, No.1.
Marshall U.
TL behaviour of some limestone rocks; Ancient TL, 1984, Vol. 2, No.2.
Marticorena Castiflo B.
Universidad Nacional de lngeniena (Peru) TL Dates-1983 (I); Ancient TL, 1983, Vol. 1, No.1.
Martini M.
A Method for the Determination of Th-U Concentration ratio; Ancient TL, 1981, No.14.
Maurer C.
Cleaning chert with HF - a note; Ancient TL, 1985, Vol. 3, No.3.
Mauz B.
The luminescence dating laboratory at the University of Bonn: equipment and procedures; Ancient TL, 2002, Vol. 20, No.2.
Removal of the feldspar-derived luminescence component from polymineral fine silt samples for optical dating applications: evaluation of chemical treatment protocols and quality control procedures; Ancient TL, 2004, Vol. 22, No.1.
The dose rate of beta sources for optical dating applications: A comparison between fine silt and fine sand quartz; Ancient TL, 2004, Vol. 22, No.2.
The alpha effectiveness in silt-sized quartz: New data obtained by single and multiple aliquot protocols; Ancient TL, 2006, Vol. 24, No.2.
McCulloch T.
ESR analysis of fluorescence bands in corals; Ancient TL, 1999, Vol. 17, No.2.
McFee C.
TL measurements of single grains from selected feldspar samples; Ancient TL 1996, Vol. 14, No.1.
Some methodological techniques for luminescence imaging using an IPD; Ancient TL, 1998, Vol. 16, No. 1.
McKeever S. W. S.
A note on the plateau test as used in thermoluminescence dating; Ancient TL, 1979, No.6.
Meisl N.K.
Anomalous fading parameters and activation energies of feldspars; Ancient TL, 2005, Vol. 23, No.1.
Mejdahl V.
Thermoluminescence dating of loess deposition in Normandy; Ancient TL, 1985, Vol. 3, No.1.
Further comments on extrapolation methods of dating sediments; Ancient TL, 1985, Vol. 3, No.2.
European Network on ‘Thermoluminescence Applied to Archaeology’; Ancient TL, 1986, Vol. 4, No.2.
Internal radioactivity in quartz and feldspar grains; Ancient TL, 1987, Vol. 5, No.2.
The effect of shallow traps: a possible source of error in TL dating of sediments; Ancient TL, 1992, Vol. 10, No.2.
Mercier N.
Observations on palaeodose determination with burnt flints; Ancient TL, 1992, Vol. 10, No.3.
A simple semi-automatic TL apparatus of new desigin; Ancient TL, 1994, Vol. 12, No.2.
Distinguishing burnt from partly bleached unburnt quartz pebbles of Pedra Furada, Brazil; Ancient TL, 1998, Vol. 16, No.1.
Alpha sensitivity determination in quartzite using an OSL single aliquot procedure; Ancient TL, 2001, Vol. 19, No.2.
Field gamma dose-rate measurement with a NaI(Tl) detector: re-evaluation of the "threshold" technique; Ancient TL, 2007, Vol. 25, No.1.
Miallier D.
The use of flotation techniques to separate quartz from feldspar; Ancient TL, 1983, Vol. 1, No.1.
Comments on the quotation of TL.dates; Ancient TL, 1983, Vol. 1, No.3.
TL dating in the Holocene using red TL from quartz; Ancient TL, 1992, Vol. 10, No.3.
Exponential regressions for TL/ESR using regenerated dose response curves; Ancient TL, 1993, Vol. 11, No.1.
Sun bleaching of the red TL of quartz: preliminary observations; Ancient TL, 1994, Vol. 12, No.1.
A stable reference light source; Ancient TL, 2002, Vol. 20, No.2.
Michab M.
Distinguishing burnt from partly bleached unburnt quartz pebbles of Pedra Furada, Brazil; Ancient TL, 1998, Vol. 16, No.1.
Michael C. T.
A new technique for measuring the natural dose in TL dating and its application in the dating of a mortar containing ceramic fragments; Ancient TL, 1997, Vol. 15, Nos.2-3.
Authenticating marble structures with thermoluminescence; Ancient TL, 2002, Vol. 20, No.1.
Miller M. A.
Interlaboratory study of potassium contents using gamma spectrometric and atomic absorption analyses and comparison with grain size; Ancient TL, 1982, No.18.
Mitamura N.
Imaging and measurement of red-infrared stimulated luminescence (R-IRSL) from feldspar samples; Ancient TL, 2003, Vol. 21, No.1.
Mitsuji T.
Thermoluminescence and afterglow color images from ancient pottery pieces; Ancient TL, 2000, Vol. 18, No.1.
Moffat A.
Spectral emission properties of some blue light-emitting diodes; Ancient TL, 1999, Vol 17, No.1
Mojarrabi B.
Selective bleach: an improved partial bleach technique for finding equivalent doses for TL dating of quartz sediments; Ancient TL, 1993, Vol. 11, No.1.
Molodkov A.
Application of ESR to the dating of subfossil shells from marine deposits; Ancient TL, 1986, Vol. 4, No.3.
Montret M.
TL dating in the Holocene using red TL from quartz; Ancient TL, 1992, Vol. 10, No.3.
Exponential regressions for TL/ESR using regenerated dose response curves; Ancient TL, 1993, Vol. 11, No.1.
Sun bleaching of the red TL of quartz: preliminary observations; Ancient TL, 1994, Vol. 12, No.1.
Mortlock A. J.
A convenient dosimeter for measuring the environmental radiation dose rate as it applies to thermoluminescence dating, Ancient TL, 1979, No.9.
Putting Ancient Rome to use; Ancient TL, 1980, No.11.
Unusual features of the thermoluminescence signal profile for sediments from beneath Lake George, NSW; Ancient TL, 1984, Vol. 2, No.2.
Mulhern P. J.
Isolation of silt-sized quartz from sediments; Ancient TL, 1980, No.11.
Munyikwa K.
Cosmic ray contribution to environmental dose rates with varying overburden thickness; Ancient TL, 2000, Vol. 18, No.2.
Murray A. S.
The reproducibility of TL data from fine grain discs; Ancient TL, 1980, No.10.
Revisiting TL: Dose measurement beyond the OSL range using SAR; Ancient TL, 2005, Vol. 23, No.1.
A method for the removal of mica from quartz separates; Ancient TL, 2005, Vol. 23, No.2.
Nambi K. S. V.
TL Dating: Error implications in case of undetermined U-Th concentration ratio in pottery samples; Ancient TL, 1978, No.2.
Comments of TL age underestimates of stalagmitic calcite; Ancient TL, 1985, Vol. 3, No.1.
Napier B. J.
Alternative laboratory illumination: ‘gold’ fluorescent tubes; Ancient TL. 1991, Vol. 9, No.1.
The influence of sample treatment on feldspar dose response; Ancient TL, 1994, Vol. 12, No.2.
A test of the single aliquot method of equivalent dose determination for feldspar stimulated by green light; Ancient TL, 1994, Vol. 12, No.2.
Nathan R.
Gamma dosing and shielding of a human tooth by a mandible and skull cap: Monte Carlo simulations and implications for the accuracy of ESR dating of tooth enamel; Ancient TL, 2003, Vol. 21, No.2.
Neal M A.
Green light-emitting diodes used for optical stimulation of luminescence; Ancient TL, 1998, Vol. 16, No. 1.
Nishiyama E.
Thermoluminescence and afterglow color images from ancient pottery pieces; Ancient TL, 2000, Vol. 18, No.1.
Ollerhead J.
Light transmittance through dry, sieved sand: some test results; Ancient TL, 2001, Vol. 19, No.1.
Olszak L J.
TL studies of Quaternary sediments at the University of Gdansk; Ancient TL, 1985, Vol. 3, No.3.
Otazo M.R.
Design of a blue LED stimulation unit with a highly uniform illumination pattern; Ancient TL, 2004, Vol. 22, No.2.
Ozer A. Y.
Comment on ‘A cautionary note: apparent sensitivity change resulting from curve fitting’; Ancient TL, 1992, Vol. 10, No.1.
Packman S. C.
Irradiation of loess samples at elevated temperatures; Ancient TL, 1988, Vol. 6, No.3.
Uncertainties involved in the measurement of TL intensities; Ancient TL, 1993, Vol. 11, No.1.
The alpha effectiveness in silt-sized quartz: New data obtained by single and multiple aliquot protocols; Ancient TL, 2006, Vol. 24, No.2.
Patel A.D.
An effective and reusable sampling pipe for luminescence dating; Ancient TL, 2006, Vol. 24, No.1.
Pavlish L. A.
Aqua Regia wash for the large grain dating method; Ancient TL. 1978, No.4.
Pereyra Parra A.
Universidad Nacional de Ingeniera (Peru) TL Dates - 1984 (1); Ancient TL, 1984, Vol.2, No.1.
Pernicka E.
Primary and interlaboratory calibration of beta sources using quartz as thermoluminescent phosphor, Ancient TL, 1979, No.6.
A note on overcounting in alpha-counters and its elimination; Ancient TL, 1989, Vol. 7, No.1.
Influence of radiation used by the security control at airports on the TL signal of quartz; Ancient TL, 2003, Vol. 21, No.1.
Pierson J.M.
The age of the Diring Yuriakh archaeological site: reply to Huntley and Richards; Ancient TL, 1997, Vol. 15, Nos.2-3.
Pilleyre Th.
TL dating in the Holocene using red TL from quartz; Ancient TL, 1992, Vol. 10, No.3.
Exponential regressions for TL/ESR using regenerated dose response curves; Ancient TL, 1993, Vol. 11, No.1.
Sun bleaching of the red TL of quartz: preliminary observations; Ancient TL, 1994, Vol. 12, No.1.
A stable reference light source; Ancient TL, 2002, Vol. 20, No.2.
Polikreti K.
Authenticating marble structures with thermoluminescence; Ancient TL, 2002, Vol. 20, No.1.
Poljakov V.
Regression analysis of exponential palaeodose growth curves; Ancient TL, 1990, Vol. 8, No.1.
Poolton N. R. J.
The use of LEDs as an excitation source for photoluminescence dating of sediments; Ancient TL 1989, Vol. 7, No.1.
Porat N.
Use of magnetic separation for purifying quartz for luminescence dating; Ancient TL, 2006, Vol. 24, No.2.
Prasad S.
HF treatment for the isolation of fine grain quartz for luminescence dating; Ancient TL, 2000, Vol. 18, No.1.
Prescott J. R.
Reduction of spurious TL in atmospheres; Ancient TL, 1979, No.7.
On the local and international calibration of beta sources for TL dating; Ancient TL, 1981, No.14.
TL dating of calcrete ovenstones; Ancient TL. 1982, No.17.
Polonium loss from glasses prepared for alpha counting; Ancient TL, 1984, Vol. 2, No.1.
A cautionary note on the measurement of quartz TL immediately after irradiation; Ancient TL, 1984, Vol. 2, No.2.
A caution on laboratory illumination; Ancient TL, 1986, Vol. 4, No.3.
Dating quartz sediments using the 325°C TL peak: new spectral data; Ancient TL, 1990, Vol. 8, No.3.
Zero thermoluminescence for zero age; Ancient TL, 1991, Vol. 9, No.2.
Selective bleach: an improved partial bleach technique for finding equivalent doses for TL dating of quartz sediments; Ancient TL, 1993, Vol. 11, No.1.
Estimation of equivalent dose in thermoluminescence dating - the Australian slide method; Ancient TL, 1993, Vol. 11, No.1.
Tests of luminescence dating making use of paleomagnetic reversals; Ancient TL, 1994, Vol. 12, No.2.
“Efficiencies” of phosphor screens used in Thick Source Alpha particle Counting; Ancient TL, 1995, Vol. 13, No.1.
Cosmic ray dose rates for luminescence and ESR dating: measured with a scintillation counter; Ancient TL, 2000, Vol. 18, No.1.
Thick source alpha counting: the measurement of thorium; Ancient TL, 2002, Vol. 20, No.1.
Prestwich W.V.
The ROSY ESR dating program; Ancient TL, 1999, Vol. 17, No.2.
Preusser F.
Bleaching characteristics of some optically stimulated luminescence signals; Ancient TL, 1999, Vol. 17, No.1.
Comparison of dose rate determination using high-resolution gamma spectrometry and inductively coupled plasma-mass spectrometry; Ancient TL, 2001, Vol. 19, No.1.
IRSL dating of K-feldspars using the SAR protocol: Comparison with independent age control; Ancient TL, 2003, Vol. 21, No.1.
Price D. M.
Unusual features of the thermoluminescence signal profile for sediments from beneath Lake George, NSW; Ancient TL. 1984, Vol. 2, No.2.
TL dating of fluvial quartz sands: a comparison of ages obtained at 325°C and 375°C; Ancient TL, 1994, Vol. 12, No.2.
Proszynzka H.
Interlaboratory study of potassium contents using gamma spectrometric and atomic absorption analyses and comparison with grain size; Ancient TL, 1982, No.18.
Prudencio M.I.
Source calibrations and blind test results from the new luminescence dating laboratory at the Instituto Tecnologico e Nuclear, Sacavem, Portugal; Ancient TL, 2003, Vol. 21, No.1.
Przegietka K.R.
Source calibrations and blind test results from the new luminescence dating laboratory at the Instituto Tecnologico e Nuclear, Sacavem, Portugal; Ancient TL, 2003, Vol. 21, No.1.
Purvinskis N. A.
Zero thermoluminescence for zero age; Ancient TL, 1991, Vol. 9, No.2.
Quesada I.
Design of a blue LED stimulation unit with a highly uniform illumination pattern; Ancient TL, 2004, Vol. 22, No.2.
Questiaux D. G.
Cautions on the use of extended duration preheats in the optical dating of quartz; Ancient TL, 1993, Vol. 11, No.2.
The use of sodium lamps for low-intensity laboratory safelighting for optical dating; Ancient TL, 2000, Vol. 18, No.2.
Quinif Y.
Paleographical and stratigraphical inferences from TL properties of Saalian & Weichselian loess of NW Europe; Ancient TL, 1986, Vol. 4, No.1.
TL stratigraphy of loesses: quartz and feldspar dosemeters within loessic deposits from Normandy and France; Ancient TL, 1986, Vol. 4, No.3.
Readhead M. L.
Rapid thick source alpha counting, Ancient TL, 1984, Vol.2, No.2.
Recent addition of potassium: a potential source of error in calculating TL age; Ancient TL, 1988, Vol.6, No.1.
Absorbed dose fraction for 87Rb beta particles; Ancient TL, 2002, Vol. 20, No.1.
Addendum to “Absorbed dose fraction for 87Rb beta particles”; Ancient TL, 2002, Vol. 20, No.2.
Rees-Jones J.
Optical dating of young sediments using fine-grain quartz; Ancient TL, 1995, Vol. 13, No.2.
Regalia D. F.
110°C TL peak records the ancient heat treatment of flint; Ancient TL, 1989, Vol. 7, No.1.
Rendell H. M.
Problems with linear regression as applied to TL data; Ancient TL, 1985, Vol.3, No.3.
High sensitivity TL spectra of quartz and feldspar, Ancient TL, 1993, Vol. 11, No.2.
Rhodes E. J.
ESR behaviour of the paramagnetic centre at g=2.0018 in tooth enamel; Ancient TL, 1991, Vol.9, No.2.
On the selection of dose points for saturating exponential ESR/TL dose response curves; Ancient TL 1991, Vol. 9, No.3.
Simulations of saturating exponential ESR/TL dose response curves weighting of intensity values by inverse variance; Ancient TL, 1992, Vol. 10, No.3.
Dose rate and radioisotope concentrations in the concrete calibration blocks at Oxford; Ancient TL, 2007, Vol. 25, No.1.
Richards M. P.
The age of the Diring Yuriakh archaeological site; Ancient TL, 1997, Vol. 15, Nos. 2-3.
Richter D.
Source calibrations and blind test results from the new luminescence dating laboratory at the Instituto Tecnologico e Nuclear, Sacavem, Portugal; Ancient TL, 2003, Vol. 21, No.1.
Rink W. J.
Improved detection of EPR signals used in quartz dating; Ancient TL, 1991, Vol. 9, No.3.
Densities of modern and fossil dental tissues: significance to ESR dating of tooth enamel; Ancient TL, 1997, Vol. 15, Nos. 2-3.
The ROSY ESR dating program; Ancient TL, 1999, Vol. 17, No.2.
Rittenour T.M.
A linear modulation OSL study of the unstable ultrafast component in samples from Glacial Lake Hitchcock, Massachusetts, USA; Ancient TL, 2006, Vol. 24, No.2.
Roberts R. G.
Cautions on the use of extended duration preheats in the optical dating of quartz; Ancient TL, 1993, Vol. 11, No.2.
Single-aliquot and single-grain optical dating confirm thermoluminescence age estimates at Malakunanja II rock shelter in northern Australia; Ancient TL, 1998, Vol. 16, No. 1.
Robertson G. B.
Dose normalisation in fine grain dating of loess; Ancient TL. 1995, Vol. 13, No.2.
Robertson S.
Dose evaluation on a fossil tooth using multiple and single powder aliquots as well as a fragment; Ancient TL, 2001, Vol. 19, No.1.
Roman A.
Thermoluminescent dating of ancient Toconce potteries; Ancient TL, 1980, No.10.
Pontificia Universidad Católica de Chile TL Dates, 1983 (II); Ancient TL, 1983, Vol. 1, No.2.
Rule E.M.
The ROSY ESR dating program; Ancient TL, 1999, Vol. 17, No.2.
Sadasivan S.
Advantages of Ge (Li) and pure Ge detectors in gamma spectrometry measurement of U, Th and K; Ancient TL, 1983, Vol. 1, No.2.
Sadovsky
A simple staining method for K-feldspars before sample preparation for IR-OSL Dating; Ancient TL, 1996, Vol. 14, No.1.
Sanderson D.
A modified alpha counting system; Ancient TL, 1979, No.9.
A micro-computerised TL system; Ancient TL, 1982, No.17.
An automated beta irradiator using a Sr90 foil source; Ancient TL, 1985, Vol. 3, No.3.
Sanyal T.
A technique for the generation of three dimensional isometric glow curves from conventional glow curve records; Ancient TL, 1988, Vol. 6, No.2.
Sanzelle S.
The use of flotation techniques to separate quartz from feldspar; Ancient TL, 1983, Vol. 1, No.1.
Comments on the quotation of TL dates; Ancient TL, 1983, Vol. 1, No.3.
TL dating in the Holocene using red TL from quartz; Ancient TL, 1992, Vol. 10, No.3.
Exponential regressions for TL/ESR using regenerated dose response curves; Ancient TL, 1993, Vol. 11, No.1.
Sun bleaching of the red TL of quartz: preliminary observations; Ancient TL, 1994, Vol. 12, No.1.
A stable reference light source; Ancient TL, 2002, Vol. 20, No.2.
Sasidharan R.
TL Dating: Error implications in case of undetermined U-Th concentration ratio in pottery samples, Ancient TL, 1978, No.2.
Schvoerer M.
Non linear approach of TL response to dose: polynomial approximation; Ancient TL, 1996, Vol. 14, No. 2
Schwarcz H.P.
Some remarks on ESR dating of bones; Ancient TL, 1987, Vol. 5, No.2.
The ROSY ESR dating program; Ancient TL, 1999, Vol. 17, No.2.
Schweitzer U.
Improvements in sample preparation for the fine grain technique; Ancient TL, 1994, Vol. 14, No.2.
Schwenninger J-L.
Dose rate and radioisotope concentrations in the concrete calibration blocks at Oxford; Ancient TL, 2007, Vol. 25, No.1.
SenGupta S.
A technique for the generation of three dimensional isometric glow curves from conventional glow curve records; Ancient TL, 1988, Vol. 6, No.2.
Shakhovets S. A.
Kinetic studies of quartz thermoluminescence as applied to sediment dating; Ancient TL, 1987, Vol. 5, No.1.
The effect of shallow traps: a possible source of error in TL dating of sediments; Ancient TL, 1992, Vol. 10, No.2.
Sharma Y. P.
Physical Research Laboratory TL Dates-1981 (II); Ancient TL, 1981, No.15.
Shimoyama Y.
Improved detection of EPR signals used in quartz dating; Ancient TL, 1991, Vol. 9, No.3.
Shlukov A. I.
Kinetic studies of quartz thermoluminescence as applied to sediment dating; Ancient TL, 1987, Vol.5, No.1.
The effect of shallow traps: a possible source of error in TL dating of sediments; Ancient TL, 1992, Vol. 10, No.2.
Short M. A.
Infrared stimulation of quartz; Ancient TL, 1992, Vol. 10, No.2.
Singhvi A. K.
Americium - 241 for Alpha Irradiations; Ancient TL, 1978, No.3.
Physical Research Laboratory TL Dates-1981 (I ); Ancient TL, 1981, No.14.
Physical Research Laboratory TL Dates-1981 (II ); Ancient TL, 1981, No.15.
Thermoluminescence research in India: A review of applications to archaeology, sediments and meteorites; Ancient TL, 1983, Vol. 1, No.2.
A cathodoluminescence/x-ray microprobe study of various sediments from India and Antartica; Ancient TL, 1983, Vol. 1,No.3.
Improvements in infra-red dating of partially bleached sediments - the "Differential Partial Bleach Technique"; Ancient TL, 1998, Vol. 16, No. 2.
Sjostrand H.
Thick source alpha counting: the measurement of thorium; Ancient TL, 2002, Vol. 20, No.1.
Smith B. W.
On the local and international calibration of beta sources for TL dating, Ancient TL, 1981, No.14.
A cautionary note on the measurement of quartz TL immediately after irradiation; Ancient TL, 1984, Vol. 2, No.2.
More cautions on laboratory illumination; Ancient TL, 1988, Vol. 6, No.1.
Smith M.
Single-aliquot and single-grain optical dating confirm thermoluminescence age estimates at Malakunanja II rock shelter in northern Australia; Ancient TL, 1998, Vol. 16, No. 1.
Soumana S.
TL dating in the Holocene using red TL from quartz; Ancient TL, 1992, Vol. 10, No.3.
Sun bleaching of the red TL of quartz: preliminary observations; Ancient TL, 1994, Vol. 12, No.1.
Spooner N. A.
A caution on laboratory illumination; Ancient TL, 1986, Vol.4, No3.
A source of variability in the thermoluminescence of quartz; Ancient TL. 1988, Vol. 6, No.1.
Some characteristics of infrared emitting diodes relevant to luminescence dating; Ancient TL, 1990, Vol. 8, No.3.
Cautions on the use of extended duration preheats in the optical dating of quartz; Ancient TL, 1993, Vol. 11, No.2.
The use of sodium lamps for low-intensity laboratory safelighting for optical dating; Ancient TL, 2000, Vol. 18, No.2.
Stokes M.J.
A regression method for evaluation of palaeodose in the pre-dose technique; Ancient TL, 1997, Vol. 15, No.1.
Stokes S.
Further comparisons of quartz OSL additive dose palaeodose generated using long and short duration pre-heats; Ancient TL, 1996, Vol. 14, No.1.
Pre-heats, palaeodoses and paradigms in the Optical Dating of quartz: some comments on Roberts et al. (1993) ‘Caution on the use of extended duration pre-heats in the Optical Dating of quartz’; Ancient TL, 1996, Vol. 14, No.1.
Red thermoluminescence (RTL) in volcanic quartz: development of a high sensitivity detection system and some preliminary findings; Ancient TL, 2000, Vol. 18, No.2.
Confirmation of the backscattered beta dose enhancement rates based on single aliquot regeneration (SAR) analysis of quartz sand and silt; Ancient TL, 2001, Vol. 19, No.2.
Detection of far-red IRSL from loess; Ancient TL, 2002, Vol. 20, No.2.
Inductively-coupled plasma mass spectrometry (ICP-MS) for dose rate determination: some guidelines for sample preparation and analysis; Ancient TL, 2003, Vol. 21, No.1.
Photomultiplier and filter combinations for the detection of relatively long wavelength (>600 nm) luminescence emissions from feldspar; Ancient TL, 2003, Vol. 21, No.1.
Red luminescence emission from potassium feldspars stimulated by infrared; Ancient TL, 2004, Vol. 22, No.2.
Straub J.
Residual luminescence signals of recent river flood sediments: A comparison between quartz and feldspar of fine- and coarse-grain sediments; Ancient TL, 2005, Vol. 23, No.1.
Sunta C. M.
TL Dating: Error implications in case of undetermined U-Th concentration ratio in pottery samples; Ancient TL, 1978, No.2.
Sutton S. R.
Hints on spurious reduction; Ancient TL, 1977, No.1.
Attempts to circumvent anomalous fading; Ancient TL, 1978, No.3.
A blue-UV absorbing filter for laboratory illumination; Ancient TL, 1978, No.5.
Predose analysis of brick samples: Feasibility for fallout dosimetry, Ancient TL, 1980, No.12.
Purity testing of TL mineral separates by cathodoluminescence; Ancient TL, 1982, No.18.
A cathodoluminescence/x-ray microprobe study of various sediments from India and Antartica; Ancient TL, 1983, Vol. 1, No.3.
A correction procedure for ambient activation in pre-dose dating; Ancient TL, 1985, Vol. 3, No.3.
Takano M.
Preferable use of red-thermoluminescence (RTL)-dating for quartz extracts from archaeologically burnt pottery - comparison of RTL and BTL (blue-TL) measurements using single-aliquot regenerative-dose (SAR) method; Ancient TL, 2003, Vol. 21, No.2.
Taylor L.
Uranium and thorium in the constituents of fossil teeth; Ancient TL, 1996, Vol. 14, No.1.
Templer R.
A high performance TL disc; Ancient TL, 1986, Vol.4, No.1.
Thomsen K.J.
Temperature calibration and MiniSys temperature upgrade for the Risø TL/OSL-DA-15 reader; Ancient TL, 2007, Vol. 25, No.1.
Townsend P. D.
High sensitivity TL spectra of quartz and feldspar; Ancient TL, 1993, Vol. 11, No.2.
Tribolo C.
Alpha sensitivity determination in quartzite using an OSL single aliquot procedure; Ancient TL, 2001, Vol. 19, No.2.
Tschirgi A.
Experimental TL techniques for the Inclusion method; Ancient TL, 1987, Vol. 5, No.3.
Tsukamoto S.
Revisiting TL: Dose measurement beyond the OSL range using SAR; Ancient TL, 2005, Vol. 23, No.1.
Ubale G.P.
An effective and reusable sampling pipe for luminescence dating; Ancient TL, 2006, Vol. 24, No.1.
Usuda H.
Color images of infrared stimulated luminescence (IRSL) from granite slices exposed to radiation; Ancient TL, 2002, Vol. 20, No.1.
Imaging and measurement of red-infrared stimulated luminescence (R-IRSL) from feldspar samples; Ancient TL, 2003, Vol. 21, No.1.
Vaghela H.R.
An effective and reusable sampling pipe for luminescence dating; Ancient TL, 2006, Vol. 24, No.1.
Valera Palacios A.
Universidad Nacional de Ingenieria (Peru) TL Dates-1983 (I); Ancient TL, 1983, Vol. 1, No.1.
Valladas G.
Stopping power and range for alpha particles in Si02; Ancient TL, 1988, Vol. 6, No.1.
Observations on palaeodose determination with burnt flints; Ancient TL, 1992, Vol. 10, No.3.
A simple semi-automatic TL apparatus of new design; Ancient TL, 1994, Vol. 12, No.2.
Valladas H.
Observations on palaeodose determination with burnt flints; Ancient TL, 1992, Vol. 10, No.3.
Distinguishing burnt from partly bleached unburnt quartz pebbles of Pedra Furada, Brazil; Ancient TL, 1998, Vol. 16, No.1.
Alpha sensitivity determination in quartzite using an OSL single aliquot procedure; Ancient TL, 2001, Vol. 19, No.2.
van der Staay J.
Sampling in waterlogged sands with a simple hand-operated corer; Ancient TL, 1999, Vol. 17, No.2.
Vares K.
Application of quartz thermoluminescence to the understanding of soil processes; Ancient TL, 1983, Vol. 1, No.2
Vartanian E.
Non linear approach of TL response to dose: polynomial approximation; Ancient TL, 1996, Vol. 14, No. 2
Voskovskaya L T.
The effect of shallow traps: a possible source of error in TL dating of sediments; Ancient TL, 1992, Vol. 10, No.2.
Wagner G. A.
Primary and interlaboratory calibration of beta sources using quartz as thermoluminescent phosphor, Ancient TL, 1979, No.6.
Procedures used for optically and infrared stimulated luminescence dating of sediments in Heidelberg; Ancient TL, 1996, Vol. 14, No.3.
Wallinga J.
Sampling in waterlogged sands with a simple hand-operated corer; Ancient TL, 1999, Vol. 17, No.2.
Spatial variation of dose rate from beta sources as measured using single grains; Ancient TL, 2006, Vol. 24, No.1.
Wang Weida
Ultrathin TLD measurement of alpha dose-rate and comparison with alpha counting; Ancient TL, 1983, Vol. 1, No.1.
Comparison between fine-grain and ultrathin TLD in the measurement of alpha dose-rate; Ancient TL, 1989, Vol. 7, No.2.
A convenient method for preparation of fine-grain samples; Ancient TL, 1989, Vol. 7, No.3.
Waters M.R.
The age of the Diring Yuriakh archaeological site: reply to Huntley and Richards; Ancient TL, 1997, Vol. 15, Nos.2-3.
Weiser A.
110°C TL peak records the ancient heat treatment of flint; Ancient TL, 1989, Vol. 7, No.1.
Wheeler S.
Post wash effects in zircon; Ancient TL, 1986, Vol.4, No.1.
Wintle A. G.
5 Spurious tidbits; Ancient TL, 1982, No.18.
Interlaboratory study of potassium contents using gamma spectrometric and atomic absorption analyses and comparison with grain size; Ancient TL, 1982, No.18.
Thermoluminescence dating of loess deposition in Normandy; Ancient TL, 1985, Vol. 3, No.1.
Comment on rapid thick source alpha counting; Ancient TL, 1985, Vol.3, No.1.
Preliminary study of the thermoluminescence behaviour of quartz from a Dutch cover sand; Ancient TL, 1985, Vol. 3, No.2.
Sensitization of TL signal by exposure to light; Ancient TL, 1985, Vol. 3, No.3.
The effect of pre-annealing on sediment TL; Ancient TL, 1987, Vol. 5, No.1.
Dose-rate comparisons of sands for thermoluminescence dating; Ancient TL., 1988, Vol. 6, No.2.
Irradiation of loess samples at elevated temperatures; Ancient TL, 1988, Vol. 6, No.3.
Fractional bleaching of potassium feldspar from sediments and its role in equivalent dose determination; Ancient TL, 1989, Vol. 7, No.1.
Significant peak enhancement of the natural TL signal observed after short term storage at 75°C; Ancient TL, 1989, Vol. 7, No.2.
Sensitivity changes of luminescence signals from colluvial sediments after different bleaching procedures; Ancient TL, 1991, Vol. 9, No.3.
The effect of optical absorption on luminescence dating; Ancient TL, 1991, Vol. 9, No.3.
A model for sensitivity change of IRSL signals; Ancient TL, 1993, Vol. 11, No.2.
Spatial variation of dose rate from beta sources as measured using single grains; Ancient TL, 2006, Vol. 24, No.1.
Analysis of quartz LM-OSL curves; Ancient TL, 2006, Vol. 24, No.1.
Woithe J. M.
“Efficiencies” of phosphor screens used in Thick Source Alpha particle Counting; Ancient TL, 1995, Vol. 13, No.1.
Wrenn M. E.
Predose analysis of brick samples: Feasibility for fallout dosimetry; Ancient TL, 1980, No.12.
Wright D. A.
Thermoluminescent Dating: Apparatus and procedure for measurement of thermoluminescence; Ancient TL. 1978, No.2.
Predose dating of a Swedish vitrified fort; Ancient TL, 1979, No.6.
A Swedish vitrified fort: Dating by conventional TL; Ancient TL, 1979, No.8.
Xia Junding
Comparison between fine-grain and ultrathin TLD in the measurement of alpha dose-rate; Ancient TL, 1989, Vol. 7, No.2.
A convenient method for preparation of fine-grain samples; Ancient TL, 1989, Vol. 7, No.3.
Xie J.
Moisture correction for annual gamma dose; Ancient TL, 1990, Vol. 8, No.2.
The hypothesis of mid-term fading and its trial on Chinese loess; Ancient TL, 1991, Vol. 9, No.2.
Yang B.
A regression method for evaluation of palaeodose in the pre-dose technique; Ancient TL, 1997, Vol. 15, No.1.
Yawata T.
Color images of infrared stimulated luminescence (IRSL) from granite slices exposed to radiation; Ancient TL, 2002, Vol. 20, No.1.
Imaging and measurement of red-infrared stimulated luminescence (R-IRSL) from feldspar samples; Ancient TL, 2003, Vol. 21, No.1.
Preferable use of red-thermoluminescence (RTL)-dating for quartz extracts from archaeologically burnt pottery - comparison of RTL and BTL (blue-TL) measurements using single-aliquot regenerative-dose (SAR) method; Ancient TL, 2003, Vol. 21, No.2.
Yoshida H.
Single-aliquot and single-grain optical dating confirm thermoluminescence age estimates at Malakunanja II rock shelter in northern Australia; Ancient TL, 1998, Vol. 16, No. 1.
Zacharias N.
A new technique for measuring the natural dose in TL dating and its application in the dating of a mortar containing ceramic fragments; Ancient TL, 1997, Vol. 15, Nos.2-3.
Zander A.
Improvements in sample preparation for the fine grain technique; Ancient TL, 1994, Vol. 14, No.2.
Zhou Zhixin
Comparison between fine-grain and ultrathin TLD in the measurement of alpha dose-rate; Ancient TL, 1989, Vol. 7, No.2.
Zink A.J.C.
Source calibrations and blind test results from the new luminescence dating laboratory at the Instituto Tecnologico e Nuclear, Sacavem, Portugal; Ancient TL, 2003, Vol. 21, No.1.
Zimmerman D. W.
Hints on spurious reduction; Ancient TL, 1977, No.1.
Attempts to circumvent anomalous fading, Ancient TL, 1978, No.3.
A blue-UV absorbing filter for laboratory illumination; Ancient TL, 1978, No.5.
A study of phototransfer in Zircon; Ancient TL, 1979, No.7.
Zöller L.
A note on overcounting in alpha-counters and its elimination; Ancient TL, 1989, Vol. 7, No.1.
The luminescence dating laboratory at the University of Bonn: equipment and procedures; Ancient TL, 2002, Vol. 20, No.2.
Residual luminescence signals of recent river flood sediments: A comparison between quartz and feldspar of fine- and coarse-grain sediments; Ancient TL, 2005, Vol. 23, No.1.
This page is based on the compilation published in Ancient TL in 1996. It was made into a webpage by Helena Rodnight, and then updated by Geoff Duller
19th November 2007