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Anomalous fading of IR-stimulated luminescence from feldspar minerals : some results of the study

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
An increasing amount of evidence shows that the use of feldspars in luminescence dating may suffer from significant age underestimates, which are thought to result from anomalous fading. In the hope of finding a solution to the problem we undertook physical investigations of kinetics and temperature dependencies of tunnel afterglow of these minerals. As a result, the method of the direct detection of the tunnel transitions from the dosimetric traps is proposed. Some other relevant results obtained are also presented and discussed. Particularly, the probable reasons of absence of effects of anomalous fading in the feldspar samples investigated in the present work are elucidated.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
11--17
Opis fizyczny
Bibliogr. 20 poz., rys.
Twórcy
autor
autor
  • Research Laboratory for Quaternary Geochronology, Institute of Geology, Tallinn University of Technology, Ehitajate Rd. 5, 19086 Tallinn, Estonia, molodkov@gi.ee
Bibliografia
  • Aboltin DE, Grabovskis VJ, Kangro AR, Luschik ChB, O’Konnel-Bronel AA, Vitol IK and Zirap VE, 1978. Thermally stimulated and tunnelling luminescence and Frenkel defect recombination in KCl and KBr at 4.2 to 77K. Physica Status Solidi (a) 47: 667–675.
  • Bailiff IK and Barnett SM, 1994. Characteristics of infrared stimulated luminescence from feldspars at low temperatures. Radiation Measurements 23: 541–546.
  • Balescu S, Lamothe M, Mercier N, Huot S, Balteanu D, Billard A and Hus J, 2003. Luminescence chronology of Pleistocene loess deposits from Romania: testing methods of age correction for anomalous fading in alkali feldspars. Quaternary Science Reviews 22: 967–973.
  • Duller GAT, 1997. Behavioural studies of stimulated luminescence from feldspars. Radiation Measurements 27: 663–694.
  • Huntley DJ and Lamothe M, 2001. Ubiquity of anomalous fading in Kfeldspars and the measurement and correction for it in optical dating. Canadian Journal of Earth Sciences 38: 1093–1106.
  • Hütt G and Jaek I, 1989. Infrared stimulated photoluminescence dating of sediments. Ancient TL 7: 48–51.
  • Kink M and Jaek I, 1972. The tunnelling from exited states of Tl0-centres in KCl crystals. Transactions of the Institute of Physics and Astronomy of the Academy of Sciences of the ESSR 39: 316–318 (in Russian, with English summary).
  • Lamothe M and Auclair M, 1999. A solution to anomalous fading and age shortfalls in optical dating feldspar minerals. Earth and Planetary Science Letters 171: 319–323.
  • Mejdahl V, 1983. Feldspar inclusion dating of ceramics and burnt stones. PACT 9: 351–364.
  • Molodkov A and Bitinas A, 2006. Sedimentary record and luminescence chronology of the Lateglacial and Holocene aeolian sediments in Lithuania. Boreas 35: 244–254.
  • Rieser U, Hütt G, Krbetschek MR and Stoltz W, 1997. Feldspars IRSL emission spectra at high and low temperatures. Radiation Measurements 27: 273–278.
  • Spooner NA, 1994. The anomalous fading of infra-red stimulated luminescence from feldspars. Radiation Measurements 23: 625–632.
  • Templer RH, 1986. The localised transition model of anomalous fading. Radiation Protection Dosimetry 17: 493–497.
  • Visocekas R, 1985. Tunnelling radiative recombination in labradorite; its association with anomalous fading of thermoluminescence. Nuclear Tracks and Radiation Measurements 10: 521–526.
  • Visocekas R, Spooner NA, Zink A and Blanc P, 1994. Tunnel after glow, fading and infrared emission in thermoluminescence of feldspars. Radiation Measurements 23: 377–385.
  • Wallinga J, Murray AS, Duller GAT and Törnqvist TE, 2001. Testing optically stimulated luminescence dating of sand-sized quartz and feldspar from fluvial deposits. Earth and Planetary Science Letters 193: 617–630.
  • Wintle AG, 1973. Anomalous fading of thermoluminescence in mineral samples. Nature 245: 143–144.
  • Wintle AG, 1977. Detailed study of a mineral exhibiting anomalous fading. Journal of Luminescence 15: 385–393.
  • Zhong-Ping Lai, Stokes S, Bailey R, Fattahi M and Arnold L, 2003. Infrared stimulated red luminescence from Chinese loess: basic observations. Quaternary Science Reviews 22: 961–966.
  • Zink AJC and Visocekas R, 1997. Datability of sanidine feldspars using the near infrared TL emission. Radiation Measurements 27: 251–261.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAT8-0004-0002
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