Journal ArticleDOI
COLOR CENTERS AND THE THERMOLUMINESCENCE MECHANISM IN LiF.
TLDR
In this paper, color-center transformations in pure and dosimetry grade LiF have been studied over the wavelength range 105-750 nm, and both impurity and irradiation-induced optical absorption were measured, the latter by a relatively high x-ray exposure at room temperature.Abstract:
Color‐center transformations in pure and dosimetry grade LiF have been studied over the wavelength range 105–750 nm. Both impurity‐ and irradiation‐induced optical absorption were measured, the latter by a relatively high x‐ray exposure at room temperature. Thermal and optical treatments were chosen to induce transformations which are easily related to the thermoluminescence (TL) process. The results demonstrate the following for dosimetry LiF: The TL‐associated 310‐nm absorption results from trapped electrons. The TL process intimately involves V3 centers (113‐nm absorption band). The centers causing the 225‐nm band (Z3 band) and those causing the 137‐nm impurity band may both be involved in the sensitization (and supralinearity) phenomenon. A complete model for the TL is presented and discussed. Not so important to the TL is a broad apparently intrinsic absorption from 120–200 nm which is induced by irradiation in both pure and dosimetry LiF.read more
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Optical Effects of Ion Implantation
TL;DR: In this article, the optical properties of implanted semiconductors, electrooptic components formed by ion implantation, general principles that determine most luminescent systems, effects of implantation temperature, luminescence centers in LiF-Mg-Ti radiation dosimeters, and use of line spectra in defect studies.
Journal ArticleDOI
The theoretical and microdosimetric basis of thermoluminescence and applications to dosimetry
TL;DR: In this paper, a review deals with the following subjects: general characteristics of TL materials (including LiF, Li2B4O7, BeO), TL dose response and TL models (including: dependence of f(D) on impurity composition; supralinearity of individual glow peaks); ionising radiation dosimetry (including, dose response; cavity theory and applications); beta dosimmetry; UV induced TL; instrumentation and techniques.
Journal ArticleDOI
On the role of Z centers in the trapping mechanism of thermoluminescent lithium fluoride
TL;DR: In this paper, a model for the trapping process in thermoluminescent LiF is developed based on Z centers, where traps initiating main glow peak 5 are assumed to be Z2 centers being produced by irradiation via Z0 and Z3 centers in a two-step process.
Journal ArticleDOI
Thermoluminescence and lattice defects in LiF
T. G. Stoebe,Shigueo Watanabe +1 more
TL;DR: In this paper, the authors examined the relationship between thermoluminescence and lattice defect equilibrium in the case of lithium fluoride at and above room temperature, focusing on the relationship of recombination and luminescence, the supralinearity and sensitization of the dosimetry grade of LiF and activation energy parameters.
References
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Journal ArticleDOI
Absorption Spectra of F - 2 , Cl - 2 , Br - 2 , and I - 2 in the Alkali Halides
TL;DR: In this article, the optical and paramagnetic resonance spectra of crystals containing one of the impurities were analyzed to identify the optical transitions of these centers, and the polarizations and relative intensities of the optical absorptions in the optical absorption in the x-ray irradiation at liquid nitrogen temperature were discussed.
Journal ArticleDOI
Effect of Impurities on the Flow Stress of LiF Crystals
TL;DR: In this article, the effects of impurities in these crystals were investigated in terms of how they resist the motion of fresh dislocations, and it was shown that impurities affect the resistance to dislocation motion by altering the steadystate number of jogs on the screw dislocation.
Journal ArticleDOI
EFFECTS OF PRE-IRRADIATION ANNEALING ON THE THERMOLUMINESCENCE AND DIELECTRIC LOSS OF LiF:Mg
R. M. Grant,J. R. Cameron +1 more
TL;DR: The character of the radiation-induced thermoluminescent glow peaks in LiF:Mg (70 ppm and 100 ppm by spectrographic analysis) is affected by pre-irradiation isothermal annealing as discussed by the authors.