Using specially engineered structures to tailor the optical absorption in a metallic multilayer, we analyze the magnetization dynamics of a Co/Pt multilayer buried below a thick Cu layer. We demonstrate that hot electrons alone can very efficiently induce ultrafast demagnetization. Simulations based on hot electron ballistic transport implemented within a microscopic model that accounts for local dissipation of angular momentum nicely reproduce the experimental results, ruling out contribution of pure thermal transpor
In order to explore the role of enhanced spin-orbit interactions on the laser-induced ultrafast magn...
In order to explore the role of enhanced spin-orbit interactions on the laser-induced ultrafast magn...
In order to explore the role of enhanced spin-orbit interactions on the laser-induced ultrafast magn...
Using specially engineered structures to tailor the optical absorption in a metallic multilayer, we ...
Using specially engineered structures to tailor the optical absorption in a metallic multilayer, we ...
International audienceUsing specially engineered structures to tailor the optical absorption in a me...
Using specially engineered structures to tailor the optical absorption in a metallic multilayer, we ...
Using specially engineered structures to tailor the optical absorption in a metallic multilayer, we ...
Using specially engineered structures to tailor the optical absorption in a metallic multilayer, we ...
International audienceUsing specially engineered structures to tailor the optical absorption in a me...
International audienceUsing specially engineered structures to tailor the optical absorption in a me...
International audienceUsing specially engineered structures to tailor the optical absorption in a me...
International audienceUsing specially engineered structures to tailor the optical absorption in a me...
In order to explore the role of enhanced spin-orbit interactions on the laser-induced ultrafast magn...
In order to explore the role of enhanced spin-orbit interactions on the laser-induced ultrafast magn...
In order to explore the role of enhanced spin-orbit interactions on the laser-induced ultrafast magn...
In order to explore the role of enhanced spin-orbit interactions on the laser-induced ultrafast magn...
In order to explore the role of enhanced spin-orbit interactions on the laser-induced ultrafast magn...
Using specially engineered structures to tailor the optical absorption in a metallic multilayer, we ...
Using specially engineered structures to tailor the optical absorption in a metallic multilayer, we ...
International audienceUsing specially engineered structures to tailor the optical absorption in a me...
Using specially engineered structures to tailor the optical absorption in a metallic multilayer, we ...
Using specially engineered structures to tailor the optical absorption in a metallic multilayer, we ...
Using specially engineered structures to tailor the optical absorption in a metallic multilayer, we ...
International audienceUsing specially engineered structures to tailor the optical absorption in a me...
International audienceUsing specially engineered structures to tailor the optical absorption in a me...
International audienceUsing specially engineered structures to tailor the optical absorption in a me...
International audienceUsing specially engineered structures to tailor the optical absorption in a me...
In order to explore the role of enhanced spin-orbit interactions on the laser-induced ultrafast magn...
In order to explore the role of enhanced spin-orbit interactions on the laser-induced ultrafast magn...
In order to explore the role of enhanced spin-orbit interactions on the laser-induced ultrafast magn...
In order to explore the role of enhanced spin-orbit interactions on the laser-induced ultrafast magn...
In order to explore the role of enhanced spin-orbit interactions on the laser-induced ultrafast magn...