CaF2:Tm (TLD-300) thermoluminescent response and glow curve induced by γ-rays and ions

The thermoluminescent response of CaF2:Tm after exposure to 60Co γ-rays at doses from 0.44Gy to 8.75kGy and to low fluences (105∼108cm−2) of 25 and 40MeV 1H, 75 and 120MeV 3He, 180, 300 and 480MeV 12C, 400MeV 16O and 800MeV 20Ne ion beams, spanning a LET interval up to about 500keV/μm, has been inve...

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Bibliographic Details
Published in:Nuclear instruments & methods in physics research. Section B, Beam interactions with materials and atoms Beam interactions with materials and atoms, 2008-03, Vol.266 (5), p.772-780
Main Authors: Massillon-JL, G., Gamboa-deBuen, I., Buenfil, A.E., Monroy-Rodríguez, M.A., Brandan, M.E.
Format: Article
Language:English
Subjects:
CaF2:Tm
Glow curve
Ionisation density
LET
Relative efficiency
TLD-300
Track structure theory
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Summary:The thermoluminescent response of CaF2:Tm after exposure to 60Co γ-rays at doses from 0.44Gy to 8.75kGy and to low fluences (105∼108cm−2) of 25 and 40MeV 1H, 75 and 120MeV 3He, 180, 300 and 480MeV 12C, 400MeV 16O and 800MeV 20Ne ion beams, spanning a LET interval up to about 500keV/μm, has been investigated. A careful deconvolution analysis of the glow curve has been performed in order to obtain information for individual peaks. The region of linear response to gammas extends up to ≈1Gy, while that for ions includes the complete dose interval covered in the study (up to ≈1.3Gy). The ratio between the high- and low-temperature structures in the glow curve is correlated with radiation quality and dependence on ion identity, besides LET, is strongly suggested by the data. The thermoluminescent efficiency to ion exposure, with respect to irradiation with 60Co γ-rays, shows a different dependence on LET for each of the peaks. In general terms, the efficiency reaches a maximum between 1.2 and 1.4 near 6keV/μm and decreases for higher LET. Peak 3 displays a unique trend, its relative efficiency is always less than 1.0 and shows a strong monotonic inverse dependence with LET.
ISSN:0168-583X
1872-9584
DOI:10.1016/j.nimb.2008.01.006