An Experimental Investigation of Sample–Fluid Heat Coupling Effect in Thermal Lens Technique

Gustavo V.B. Lukasievicz; Leandro S. Herculano; Elizandra Sehn; Marcos P. Belançon; Stephen E. Bialkowski; Otávio A. Capeloto; Nelson G.C. Astrath; Luis C. Malacarne

Applied Spectroscopy
Vol. 74,
Issue 10,
pp. 1274-1279
(2020)

An Experimental Investigation of Sample–Fluid Heat Coupling Effect in Thermal Lens Technique

Gustavo V.B. Lukasievicz, Leandro S. Herculano, Elizandra Sehn, Marcos P. Belançon, Stephen E. Bialkowski, Otávio A. Capeloto, Nelson G.C. Astrath, and Luis C. Malacarne

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Gustavo V.B. Lukasievicz, Leandro S. Herculano, Elizandra Sehn, Marcos P. Belançon, Stephen E. Bialkowski, Otávio A. Capeloto, Nelson G.C. Astrath, and Luis C. Malacarne, "An Experimental Investigation of Sample–Fluid Heat Coupling Effect in Thermal Lens Technique," Appl. Spectrosc. 74, 1274-1279 (2020)

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Abstract

Laser-induced wavefront distortion is detectable by several techniques based on the photothermal effect. The effect is probed by monitoring the phase shift caused by the bulging of the heated area, the photoelastic effects, and the spatial distribution of the refractive index within the sample and in the fluid surrounding it. A simple analytical solution for the wavefront distortion was only possible for low absorbing materials, with the assumption that the stresses obey either the thin-disk or the long-rod type distributions. Recently, a unified theoretical description for the laser-induced optical path change was proposed to overcome part of this limitation for weakly absorbing materials, regardless of its thickness. In this work, we perform an experimental investigation taking the sample–fluid heat coupling effect into account using the thermal lens technique. The experimental investigation presented here validates the unified model. In addition, we show that the heat-coupling model provides an alternative method to obtain physical properties of non-absorbing fluid by using a reference solid sample.

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Supplement 1	sj-pdf-1-asp-10.1177_0003702820937364 - Supplemental material for An Experimental Investigation of Sample–Fluid Heat Coupling Effect in Thermal Lens Technique

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Applied Spectroscopy