M. Prokić scite author profile

The paper reports a study on the kinetic parameters of some thermoluminescent tissue equivalent materials recently prepared in Vinca Institute: Li2B4O7:Mn,Si, Li2B4O7:Cu, Li2B4O7:Cu,In and MgB4O7:Dy,Na. The kinetics parameters have been determined using several methods. The temperature lag effect, which could produce large errors in the parameters' determination when they are determined using high heating rates, has also been taken into consideration.

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Spectral comparison of Dy, Tm and Dy/Tm in thermoluminescent dosimeters

Karalı

Rowlands

Townsend

et al. 1998

J. Phys. D: Appl. Phys.

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Spectrally resolved thermoluminescence of co-doped Dy:Tm: shows that the maximum peak temperature for the nominal C dosimetry peak differs by C for Dy and Tm emission. This is interpreted as evidence that the rare earth ions form part of a complex defect which variously provides both the charge trapping and, during heating, the radiative decay. The peaks have the same activation energies but different pre-exponential factors. Modifications of the material by thermal treatments using furnace or laser pulse heating convert the state of dispersion of the rare earth ions between isolated, pair or defect clusters, which alter the dosimetry efficiency. In some cases the modified geometries are detectable via movement of the emission lines. For rapidly quenched materials, discontinuities in the thermoluminescence responses are suggested to be indicative of new microcrystalline phases. Slow cooling degrades the efficiency but also indicates the presence of further thermoluminescence glow peaks within the region of the main dosimetry signal. Pulsed laser heating with a UV laser altered the glow curve and resulted in strong signals. Mechanisms for this process are considered.

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Dosimetric characterisation of a new production of MgB4O7:Dy,Na thermoluminescent material

Furetta

Prokić²,

Salamon

et al. 2000

Applied Radiation and Isotopes

100

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M. Prokić

Dosimetric characteristics of tissue equivalent thermoluminescent solid TL detectors based on lithium borate

Lithium borate solid TL detectors

Kinetic parameters of some tissue equivalent thermoluminescence materials

Spectral comparison of Dy, Tm and Dy/Tm in thermoluminescent dosimeters

Dosimetric characterisation of a new production of MgB4O7:Dy,Na thermoluminescent material

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