Investigating thermoluminescence signal saturation in quartz and feldspar using emission spectrometry

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Version: Final published version
License: CC BY 4.0
Serval ID
serval:BIB_9F5BD5DB4D5D
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Investigating thermoluminescence signal saturation in quartz and feldspar using emission spectrometry
Journal
Radiation Measurements
Author(s)
Niyonzima Pontien, Oehler Salome, King Georgina E., Schmidt Christoph
ISSN
1350-4487
Publication state
Published
Issued date
09/2024
Peer-reviewed
Oui
Volume
177
Pages
107262
Language
english
Abstract
Luminescence-based thermometry and dating often requires determination of the saturation level for specific signals and the corresponding dose. However, previous studies found non-monotonic dose responses for some monochromatic thermoluminescence (TL) and optically stimulated luminescence (OSL) signals from quartz as well as spectral overlap of emission bands, substantially complicating data interpretation. Therefore, the present study examines (1) the variability in the TL emission spectrum of quartz and feldspar from bedrock and sediment of different provenances and, (2) the saturation characteristics of the blue emission band for both quartz and feldspar in the dose range from 0.25 kGy to 50 kGy. The experimental results confirm differences in the spectra which appear to be characteristic of their geological origin and chemical composition. Spectral analysis shows that in the temperature range 175–220 °C the blue emission band at ∼2.5 eV dominates over other bands for all quartz samples studied. A broad UV-blue TL signal peaking at ∼2.5−3.0 eV and composed of probably three overlapping, individual bands is characteristic for K-feldspar, while one Na-feldspar exhibits an additional band at ∼2.2 eV.
In the studied dose range, the emissions at ∼2.5 eV and ∼2.6 eV increase as a function of dose up to 6 kGy for both quartz and feldspar. A difference in dose response was observed for high doses (>6 kGy) where feldspar samples reached a stable saturation level while for quartz the blue emission band intensity decays until 50 kGy after having attained a maximum. Our results suggest the suitability of feldspar TL for palaeothermometry and thermochronometry from the perspective of signal saturation characteristics. However, the spectral overlap of several bands in the UV-blue emission requires careful optical filter selection to isolate the signal of interest. The non-monotonic dose response of the ∼2.5 eV emission of quartz around 200 °C glow curve temperature probably precludes its use for temperature sensing based on relative trap saturation levels.
Keywords
Feldspar, Decomposition of emission spectra, Signal saturation, Luminescence palaeothermometry, TL emission spectra.
Web of science
Open Access
Yes
Funding(s)
Swiss National Science Foundation / 200021_204236
Create date
17/09/2024 12:07
Last modification date
18/10/2024 15:58
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