Phototransferred thermoluminescence of rose quartz: Measurement and analysis

Q2 Engineering

Optical Materials: X Pub Date : 2025-02-01 DOI:10.1016/j.omx.2024.100391

M.L. Chithambo , I.A. Ferreira , N.M. Trindade

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Abstract

Phototransferred thermoluminescence (PTTL) of rose quartz induced by 470 nm blue-, 525 nm green- and 405 nm UV-light is reported. Although its conventional TL glow curve measured at 1 °C s⁻¹ during heating to 500 °C has five peaks (labelled I–V), only peaks I-IV are reproduced under phototransfer. All four peaks re-appear owing to phototransfer by 405 nm illumination whereas only peaks I-II are regenerated by 470 nm and 525 nm light. The dependence of PTTL intensity on duration of illumination for peaks I and II is analysed using phenomenological and kinetics models as systems of acceptor and donors with the number of the latter determined by experiment. The intensity of PTTL induced from deep electron traps increases with temperature of illumination with an activation energy of thermal assistance of 0.20 ± 0.01 eV irrespective of the illumination wavelength but decreases at elevated temperatures with an activation energy of thermal quenching whose value depends on the illumination wavelength. The extent to which electron traps affect the PTTL as acceptors or donors has also been studied.

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玫瑰石英的光转移热致发光：测量和分析

报告了玫瑰石英在 470 nm 蓝光、525 nm 绿光和 405 nm 紫外光诱导下的光转移热致发光（PTL）。虽然在加热至 500 °C 期间以 1 °C s-1 的速度测量的传统 TL 辉光曲线有五个峰值（标记为 I-V），但只有峰值 I-IV 在光转移作用下得以重现。在 405 nm 的光照下，所有四个峰都会重新出现，而在 470 nm 和 525 nm 的光照下，只有 I-II 峰会重新出现。利用现象学和动力学模型分析了峰 I 和峰 II 的 PTTL 强度与光照时间的关系，将其作为受体和供体系统，后者的数量由实验确定。深电子陷阱诱导的 PTTL 强度随光照温度的升高而增加，热助活化能为 0.20 ± 0.01 eV，与光照波长无关，但在高温下会降低，热淬活化能的值取决于光照波长。此外，还研究了电子陷阱作为受体或供体对 PTTL 的影响程度。

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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