碳掺杂对固态反应生长LaAlO3晶体热释光性能的影响

Q4 Materials Science

International Journal of Microstructure and Materials Properties Pub Date : 2020-04-23 DOI:10.1504/ijmmp.2020.106925

A. Azaiz, A. Kadari, N. Alves, L. O. Faria

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引用次数: 1

摘要

本文报道了用固态反应法生长的重要剂量LaAlO3:C晶体的热释光机制的模型研究。这项工作的目的是首次开发一种算法，该算法允许对控制实验过程不同阶段的相关微分方程组进行数值求解。在10K/s下测量的辉光曲线通常由417K、494K和549K处的三个突出峰值和372K附近的一个次要辉光峰值组成。在这项工作中，我们表明这种TL输出行为可以在4T1R模型的框架内很容易地解释。对于这种剂量测定材料，实验数据与模型计算结果吻合良好。本文给出的结果证实了LaAlO3:C系统是一种极好的候选者，可以用作紫外线场中的TL剂量计。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Influence of carbon doping on the thermoluminescence properties of LaAlO3 crystal grown by solid state reaction method

In this paper, we report a modelling investigation of the thermoluminescence mechanisms for the important dosimetric LaAlO3:C crystals, which were grown by solid state reaction method. The aim of this work is to develop for the first time an algorithm that permits the numerical solution of the relevant sets of differential equations governing the different stages of the experimental procedure. The glow curve measured at 10K/s typically consists of three prominent peaks at 417 K, 494 K and 549 K and a minor glow peak at around 372 K. In this work, we show that this TL output behaviour can rather easily be explained within the framework of the 4T1R model. Good agreement between the experimental data and calculations from the model is obtained for this kind of dosimetric material. Results presented here confirm that the LaAlO3:C system an excellent candidate that can be used as a TL dosimeter in UV fields.

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来源期刊

International Journal of Microstructure and Materials Properties Materials Science-Materials Science (all)

CiteScore

0.70

自引率

0.00%

发文量

期刊介绍： IJMMP publishes contributions on mechanical, electrical, magnetic and optical properties of metal, ceramic and polymeric materials in terms of the crystal structure and microstructure. Papers treat all aspects of materials, i.e., their selection, characterisation, transformation, modification, testing, and evaluation in the decision-making phase of product design/manufacture. Contributions in the fields of product, design and improvement of material properties in various production processes are welcome, along with scientific papers on new technologies, processes and materials, and on the modelling of processes.