煅烧温度和ca: eg比对邻体tl和osl曲线组分的影响

V. Güçkan
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引用次数: 0

摘要

本研究揭示了不同焙烧温度和柠檬酸/乙二醇比(CA:EG)在热释光(TL)和光激发发光(OSL)曲线上产生的差异,从而使溶胶-凝胶合成的Neighborite (NaMgF3)化合物可以用作辐射剂量计。在制备NaMgF3荧光粉的过程中,采用了四种不同的煅烧温度(700、800、900和1000℃)进行煅烧过程。利用x射线衍射(XRD)和扫描电子显微镜(SEM)对样品进行了表征分析。结果表明,随着煅烧温度的升高,样品晶体结构中的氧化相逐渐增多。在1000℃时,观察到样品的晶体结构发生变形并偏离目标结构。综合考虑辐照后TL和OSL发光曲线中的信号强度以及表征分析中的数据,确定800℃为最佳焙烧温度。保持煅烧温度不变,并通过改变CA:EG比(2:4、4:4、8:4和16:4)四种不同方式再现样品。通过对所有样品的比较,确定了结晶效果最好、表面形貌最适宜的样品。在TL发光曲线中,观察到只有在800℃下煅烧的样品才能形成深阱。同样,从OSL发光曲线可以看出,在800℃下煅烧的样品具有更高的灵敏度。已经指出,在高温下煅烧的样品的低灵敏度是由于在煅烧过程中形成的氧化相的密度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
EFFECT OF CALCINATION TEMPERATURE AND CA:EG RATIO ON TL AND OSL CURVE COMPONENTS OF NEIGHBORITE
This study reveals the differences created by varying calcination temperature and citric acid/ethylene glycol ratio (CA:EG) in thermoluminescence (TL) and optically stimulated luminescence (OSL) curves so that the Neighborite (NaMgF3) compound synthesized using sol-gel can be used as a radiation dosimeter. While producing NaMgF3 phosphors, four different calcination temperatures (700, 800, 900 and 1000 °C) were applied for the calcination process. Characterization analyzes of the samples were performed using X-ray diffraction (XRD) and Scanning electron microscopy (SEM). It was observed that the oxide phases in the crystal structure of the sample increased gradually with increasing calcination temperature. At 1000 °C, it was observed that the crystal structure of the sample was deformed and moved away from the aimed structure. Considering the signal intensities in the TL and OSL glow curves obtained after radiation exposure and the data in the characterization analyzes, the calcination temperature of 800 °C was determined as the optimum temperature. This calcination temperature was kept constant and the samples were reproduced by changing the CA:EG ratio in four different ways (2:4, 4:4, 8:4 and 16:4). By comparing all the sample, the samples with the best crystallization and the most suitable surface morphology were determined. In TL glow curves, it was observed that deep traps could be formed only in samples calcined at 800 °C. Likewise, it was observed from the OSL glow curves that the samples calcined at 800 °C had higher sensitivity. It has been stated that the low sensitivity of the samples calcined at high temperatures is due to the density of the oxide phases formed in the calcination process.
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