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| Naji, M. |
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| Petrov, R. H. | Madrid |
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| Azevedo, Nuno Monteiro |
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| Rignanese, Gian-Marco |
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Tielrooij, Klaas-Jan
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Publications (7/7 displayed)
- 2023Observation of Negative Effective Thermal Diffusion in Gold Filmscitations
- 2023Enhanced Thermal Conductivity of Free-Standing Double-Walled Carbon Nanotube Networkscitations
- 2023Enhanced thermal conductivity of free-standing double-walled carbon nanotube networkscitations
- 2022Unraveling Heat Transport and Dissipation in Suspended MoSe2 from Bulk to Monolayercitations
- 2022Unraveling Heat Transport and Dissipation in Suspended MoSe2 from Bulk to Monolayer
- 2022Unraveling heat transport and dissipation in suspended MoSe2 from bulk to monolayercitations
- 2009Assessment of carrier-multiplication efficiency in bulk PbSe and PbScitations
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article
Observation of Negative Effective Thermal Diffusion in Gold Films
Abstract
<p>Ultrafast light-induced spatiotemporal dynamics in metals in the form of electron and/or phonon heating is a fundamental physical process that has tremendous practical relevance. In particular, understanding the resulting lateral heat transport is of key importance for various (opto)electronic applications and thermal management but has attracted little attention. Here, by using scanning ultrafast thermo-modulation microscopy to track the spatiotemporal electron diffusion in thin gold films, we show that a few picoseconds after the optical pump there is unexpected heat flow from phonons to electrons, accompanied by negative effective thermal diffusion, characterized by shrinking of the spatial region with increased temperature. Peculiarly, this occurs on the intermediate time scale, between the few picosecond long thermalization stage and the many picosecond stage dominated by thermoacoustic vibrations. We accurately reproduced these experimental results by calculating the spatiotemporal photothermal response based on the two-temperature model and an improvement of the standard permittivity model for gold. Our findings facilitate the design of nanoscale thermal management strategies in photonic, optoelectronic, and high-frequency electronic devices.</p>