Radiation-induced growth and isothermal decay of infrared-stimulated luminescence from feldspar

Benny Guralnik, Bo Li, Mayank Jain, Reuven Chen, Richard B. Paris, Andrew Murray, Sheng-Hua Li, Vasilis Pagonis, Pierre G. Valla, Frédéric Herman

    Research output: Contribution to journalConference articleResearchpeer-review

    Abstract

    Optically stimulated luminescence (OSL) ages can determine a wide range of geological events or processes, such as the timing of sediment deposition, the exposure duration of a rock surface, or the cooling rate of bedrock. The accuracy of OSL dating critically depends on our capability to describe the growth and decay of laboratory-regenerated luminescence signals. Here we review a selection of common models describing the response of infrared stimulated luminescence (IRSL) of feldspar to constant radiation and temperature as administered in the laboratory. We use this opportunity to introduce a general-order kinetic model that successfully captures the behaviour of different materials and experimental conditions with a minimum of model parameters, and thus appears suitable for future application and validation in natural environments. Finally, we evaluate all the presented models by their ability to accurately describe a recently published feldspar multi-elevated temperature post-IR IRSL (MET-pIRIR) dataset, and highlight each model's strengths and shortfalls. © 2015 Elsevier Ltd. All rights reserved.
    Original languageEnglish
    JournalRadiation Measurements
    Volume81
    Pages (from-to)224–231
    ISSN1350-4487
    DOIs
    Publication statusPublished - 2015
    Event14th International Conference on Luminescence and Electron Spin Resonance Dating - Montréal, Canada
    Duration: 7 Jul 201511 Jul 2015
    Conference number: 14

    Conference

    Conference14th International Conference on Luminescence and Electron Spin Resonance Dating
    Number14
    CountryCanada
    CityMontréal
    Period07/07/201511/07/2015

    Keywords

    • Feldspar IRSL
    • MET-pIR
    • Multiexponential analysis
    • General order kinetics

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