Temperature Dependence of Light Absorption by Water
J. B. Cumming
TL;DR
This paper presents a model linking water's temperature-dependent light absorption spectrum to its frequency derivative and temperature-sensitive parameters, enhancing understanding of the absorption process.
Contribution
It introduces a novel model that relates the temperature coefficient of water's absorption spectrum to its frequency derivative and temperature-dependent parameters.
Findings
The model improves interpretation of experimental temperature coefficients.
It offers a better understanding than existing analysis methods.
The approach connects spectral features with temperature effects.
Abstract
A model is described that relates the temperature coefficient of the optical absorption spectrum of pure water to the frequency derivative of that spectrum and two parameters that quantify the dependence of a peak's amplitude and its position on temperature. When applied to experimental temperature coefficients, it provides a better understanding of the process than the analysis currently in use.
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