Thermoluminescence study of Mn doped lithium tetraborate powder and pellet samples synthesized by solution combustion synthesis

Authors

A. Özdemir, Çukurova University
Zehra Yeǧingil, Çukurova University
Necmettin Nur, Adiyaman University
Kasim Kurt, Mersin University
Tunç Tüken, Çukurova University
Tolga Depçi, Inonu University
Gözde Tansuǧ, Çukurova University
V. Altunal, Çukurova University
V. Güçkan, Çukurova University
Gökmen Sığırcık, Çukurova University
Yan Yu, Thomas Jefferson UniversityFollow
Muhammet Karataşlı, Çukurova University
Y. Dolek, Baskent University Hospital

Document Type

Article

Publication Date

5-2016

Comments

This article has been peer reviewed. It is the authors' final version prior to publication in Journal of Luminescence

Volume 173, May 2016, Pages 149-158.

The published version is available at DOI: 10.1016/j.jlumin.2016.01.013. Copyright © Elsevier

Abstract

In this paper, the thermoluminescence (TL) dosimetric characteristics under beta-ray, x-ray and gamma-ray excitations of powder and pellet Mn-doped lithium tetraborates (LTB) which were produced by solution combustion synthesis technique were investigated, and the results were compared with that of TLD-100 chips. The chemical composition and morphologies of the obtained LTB and Mn-doped LTB (LTB:Mn) were confirmed by X-ray diffraction (XRD), Fourier Transform Infrared (FTIR) and scanning electron microscopy (SEM) with EDX. LTB:Mn was studied using luminescence spectroscopy. In addition, the effects of sintering and annealing temperatures and times on the thermoluminescence (TL) properties of LTB:Mn were investigated. The glow curves of powder samples as well as pellet samples exposed to different beta doses exhibited a low temperature peak at about 100 °C followed by an intense principal high temperature peak at about 260 °C. The kinetic parameters (E, b, s) associated with the prominent glow peaks were estimated using T_m-T_stop, initial rise (IR) and computerized glow curve deconvolution (CGCD) methods. The TL response of integral TL output increased linearly with increasing the dose in the range of 0.1-10 Gy and was followed by a superlinearity up to 100 Gy both for powder and pellet samples using beta-rays. Powder and pellet LTB:Mn were irradiated to a known dose by a linear accelerator with 6 and 18 MV photon beams, 6-15 MeV electron beams and a traceable ¹³⁷Cs beam to investigate energy response. Further, TL sensitivity, fading properties and recycling effects related with beta exposure of LTB:Mn phosphor were evaluated and its relative energy response was also compared with that of TLD-100 chips. The comparison of the results showed that the obtained phosphors have good TL dose response with adequate sensitivity and linearity for the measurement of medical doses.

Recommended Citation

Özdemir, A.; Yeǧingil, Zehra; Nur, Necmettin; Kurt, Kasim; Tüken, Tunç; Depçi, Tolga; Tansuǧ, Gözde; Altunal, V.; Güçkan, V.; Sığırcık, Gökmen; Yu, Yan; Karataşlı, Muhammet; and Dolek, Y., "Thermoluminescence study of Mn doped lithium tetraborate powder and pellet samples synthesized by solution combustion synthesis" (2016). Department of Radiation Oncology Faculty Papers. Paper 78.
https://jdc.jefferson.edu/radoncfp/78

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