S. Mammadov, M. Gurbanov, L. Ahmadzade, A. Abishov
{"title":"两种不同粒径纳米氧化铝的热释光特性","authors":"S. Mammadov, M. Gurbanov, L. Ahmadzade, A. Abishov","doi":"10.15330/pcss.24.3.584-588","DOIUrl":null,"url":null,"abstract":"This research aims to examine the thermoluminescence (TL) properties of nano-sized alumina, including the relationship between TL intensity and absorbed dose, the identification of individual luminescence peaks, and determining trap parameters for use as a possible dosimeter. The samples were exposed to 530 to 2646 Gy doses from 60Co irradiation. The results show that micro-sized α-Al2O3 had a main dosimetry peak at Tm = 435 K, while nano-α-Al2O3 samples with particle sizes of 40 and 50 nm displayed a TL luminescence glow curve, with the primary dosimetry peak located in the low-temperature range and a complex structure at higher temperatures (above 500 K). The primary dosimetry peak was influenced by nanoparticle size, with a maximum of 460 K for the 40 nm sample and 467 K for the 50 nm sample. The main dosimetry peak was described by the superposition of two peaks
","PeriodicalId":20137,"journal":{"name":"Physics and Chemistry of Solid State","volume":"151 1","pages":"0"},"PeriodicalIF":0.9000,"publicationDate":"2023-10-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Thermoluminescence properties of nano-alumina with two different particle sizes\",\"authors\":\"S. Mammadov, M. Gurbanov, L. Ahmadzade, A. Abishov\",\"doi\":\"10.15330/pcss.24.3.584-588\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"This research aims to examine the thermoluminescence (TL) properties of nano-sized alumina, including the relationship between TL intensity and absorbed dose, the identification of individual luminescence peaks, and determining trap parameters for use as a possible dosimeter. The samples were exposed to 530 to 2646 Gy doses from 60Co irradiation. The results show that micro-sized α-Al2O3 had a main dosimetry peak at Tm = 435 K, while nano-α-Al2O3 samples with particle sizes of 40 and 50 nm displayed a TL luminescence glow curve, with the primary dosimetry peak located in the low-temperature range and a complex structure at higher temperatures (above 500 K). The primary dosimetry peak was influenced by nanoparticle size, with a maximum of 460 K for the 40 nm sample and 467 K for the 50 nm sample. The main dosimetry peak was described by the superposition of two peaks
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引用次数: 0
摘要
本研究旨在研究纳米氧化铝的热释光特性,包括热释光强度与吸收剂量之间的关系,单个发光峰的识别,以及确定可能用作剂量计的陷阱参数。这些样品受到60Co辐射的530至2646 Gy剂量。结果表明,微型α氧化铝在Tm主剂量学峰= 435 K,而纳米——α氧化铝样品颗粒大小40和50 nm显示一个TL发光发光曲线,与主剂量学峰位于低温范围和复杂结构在较高温度(高于500 K)。主要剂量学峰是影响纳米颗粒大小,最大的460 K 40 nm样本和467 K 50 nm样本。主剂量峰由两个峰的叠加来描述
Thermoluminescence properties of nano-alumina with two different particle sizes
This research aims to examine the thermoluminescence (TL) properties of nano-sized alumina, including the relationship between TL intensity and absorbed dose, the identification of individual luminescence peaks, and determining trap parameters for use as a possible dosimeter. The samples were exposed to 530 to 2646 Gy doses from 60Co irradiation. The results show that micro-sized α-Al2O3 had a main dosimetry peak at Tm = 435 K, while nano-α-Al2O3 samples with particle sizes of 40 and 50 nm displayed a TL luminescence glow curve, with the primary dosimetry peak located in the low-temperature range and a complex structure at higher temperatures (above 500 K). The primary dosimetry peak was influenced by nanoparticle size, with a maximum of 460 K for the 40 nm sample and 467 K for the 50 nm sample. The main dosimetry peak was described by the superposition of two peaks
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