Study of the thermal diffusivity in low-response optical systems combining a thermal lensing approach with a standard addition method

Journal of Physics: Conference Series Pub Date : 2024-07-01 DOI:10.1088/1742-6596/2796/1/012014

Ana Teran, Cesar Costa Vera

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Abstract

Thermal lensing is a local effect produced by the incidence of a light beam that heats a part of an absorbent material. Mathematical modeling of this photothermal phenomenon allows the determination of the medium’s thermal diffusivity. A pumping-modulated laser (405nm) induces the thermal lensing effect, and a test laser (650nm) generates the photothermal signal measured as a function of the modulation. The thermal diffusivity is obtained from a curve fit of the signal (calibrated for ethanol). In this work, the thermal diffusion coefficients of low-absorbance nanoparticle suspensions are established. This was achieved through the application of a standard addition method. The added analyte, enhance the optical response of SiO 2 nanoparticle suspensions. Different aliquots of tartrazine (analyte) resulted in different values for the thermal diffusion of the samples. It was found that the experimental coefficients of this colloids agree with the theoretical model. Finally, a linear regression allowed to find the thermal coefficient in the zero concentration point.

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结合热透镜法和标准添加法研究低响应光学系统中的热扩散率

热透镜现象是光束入射时产生的一种局部效应，光束会加热吸收材料的一部分。通过对这种光热现象进行数学建模，可以确定介质的热扩散率。一个泵浦调制激光器（405 纳米）诱发热透镜效应，一个测试激光器（650 纳米）产生作为调制函数测量的光热信号。热扩散率通过信号的曲线拟合（以乙醇为校准对象）获得。在这项工作中，确定了低吸收率纳米颗粒悬浮液的热扩散系数。这是通过应用标准添加方法实现的。添加的分析物增强了 SiO 2 纳米粒子悬浮液的光学响应。不同等分的酒石酸（分析物）导致样品的热扩散值不同。实验发现，这种胶体的实验系数与理论模型一致。最后，通过线性回归找到了零浓度点的热系数。

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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Journal of Physics: Conference Series

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