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The reflectivity of noble metals can dramatically change upon ultrashort laser irradiation due to the heating of d electrons to high temperatures. Knowledge of the resulting transient optics is fundamental for determining and controlling the absorbed energy. In this work, high-accuracy self-reflectivity measurements are performed and interpreted using a theory for the space-resolved and time-resolved energy absorption and dissipation. The combined approach yields the reflectivity of gold in dependence on the incident laser fluence for a wide spectral range.
Blumenstein et al. (Mon,) studied this question.
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