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Comparison of the properties of various optically stimulated luminescence signals from potassium feldspar

Journal Article


Abstract


  • Various optically stimulated luminescence signals from K-feldspar have been used to determine the equivalent doses of sediment samples. Understanding the properties of these optical signals is critical to evaluate their applicability and limitations to optical dating. In this paper, some properties of IRSL, post-IR OSL and post-IR IRSL signals (detected in the UV region using U-340 filters) from a museum sample of K-feldspar were investigated by analyzing the relationships between optical and TL signals, and the effect of optical bleaching and heating on optical signals. The trap parameters of the different optical signals were calculated using the pulse annealing method. The results show that this sample exhibits two regenerated TL peaks at ∼140 and ∼330 °C. Corresponding to the low temperature TL peak, the OSL and post-IR OSL signals appear to be more associated with lower temperature TL than the IRSL signal measured at 50 °C. Corresponding to the high temperature TL peak, the post-IR IRSL signals mainly originate from the more thermally stable traps associated with the high temperature TL, compared with the IRSL and post-IR OSL signals. However, the post-IR IRSL225 °C signal is shown to be hard to be bleached by blue light and simulated sunlight, compared with the IRSL50 °C and low temperature post-IR IRSL signals. The implication for optical dating is that the elevated temperature post-IR IRSL signals can be preferentially applied over other signals from K-feldspar, but it is desirable that the effectiveness of the pre-depositional zeroing of these signals is assessed.

Authors


  •   Fu, Xiao (external author)
  •   Zhang, Jia-Fu (external author)
  •   Zhou, Li-Ping (external author)

Publication Date


  • 2012

Geographic Focus


Citation


  • Fu, X., Zhang, J. & Zhou, L. (2012). Comparison of the properties of various optically stimulated luminescence signals from potassium feldspar. Radiation Measurements, 47 210-218.

Scopus Eid


  • 2-s2.0-84862822485

Number Of Pages


  • 8

Start Page


  • 210

End Page


  • 218

Volume


  • 47

Abstract


  • Various optically stimulated luminescence signals from K-feldspar have been used to determine the equivalent doses of sediment samples. Understanding the properties of these optical signals is critical to evaluate their applicability and limitations to optical dating. In this paper, some properties of IRSL, post-IR OSL and post-IR IRSL signals (detected in the UV region using U-340 filters) from a museum sample of K-feldspar were investigated by analyzing the relationships between optical and TL signals, and the effect of optical bleaching and heating on optical signals. The trap parameters of the different optical signals were calculated using the pulse annealing method. The results show that this sample exhibits two regenerated TL peaks at ∼140 and ∼330 °C. Corresponding to the low temperature TL peak, the OSL and post-IR OSL signals appear to be more associated with lower temperature TL than the IRSL signal measured at 50 °C. Corresponding to the high temperature TL peak, the post-IR IRSL signals mainly originate from the more thermally stable traps associated with the high temperature TL, compared with the IRSL and post-IR OSL signals. However, the post-IR IRSL225 °C signal is shown to be hard to be bleached by blue light and simulated sunlight, compared with the IRSL50 °C and low temperature post-IR IRSL signals. The implication for optical dating is that the elevated temperature post-IR IRSL signals can be preferentially applied over other signals from K-feldspar, but it is desirable that the effectiveness of the pre-depositional zeroing of these signals is assessed.

Authors


  •   Fu, Xiao (external author)
  •   Zhang, Jia-Fu (external author)
  •   Zhou, Li-Ping (external author)

Publication Date


  • 2012

Geographic Focus


Citation


  • Fu, X., Zhang, J. & Zhou, L. (2012). Comparison of the properties of various optically stimulated luminescence signals from potassium feldspar. Radiation Measurements, 47 210-218.

Scopus Eid


  • 2-s2.0-84862822485

Number Of Pages


  • 8

Start Page


  • 210

End Page


  • 218

Volume


  • 47