Nicolas Bergeard scite author profile

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 transport.

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Ultrafast angular momentum transfer in multisublattice ferrimagnets

Bergeard

et al. 2014

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Femtosecond laser pulses can be used to induce ultrafast changes of the magnetization in magnetic materials. However, one of the unsolved questions is that of conservation of the total angular momentum during the ultrafast demagnetization. Here we report the ultrafast transfer of angular momentum during the first hundred femtoseconds in ferrimagnetic Co 0.8 Gd 0.2 and Co 0.74 Tb 0.26 films. Using time-resolved X-ray magnetic circular dichroism allowed for time-resolved determination of spin and orbital momenta for each element. We report an ultrafast quenching of the magnetocrystalline anisotropy and show that at early times the demagnetization in ferrimagnetic alloys is driven by the local transfer of angular momenta between the two exchange-coupled sublattices while the total angular momentum stays constant. In Co 0.74 Tb 0.26 we have observed a transfer of the total angular momentum to an external bath, which is delayed by B150 fs.

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Nicolas Bergeard

Hot-Electron-Induced Ultrafast Demagnetization inCo/PtMultilayers

Ultrafast angular momentum transfer in multisublattice ferrimagnets

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