Laser induced ultrafast demagnetization in ferromagnetic metals was discovered almost 20 years ago, but currently there is still lack of consensus on the microscopic mechanism responsible for the corresponding transfer of angular momentum and energy between electron, lattice and spin subsystems. A distinct, but intrinsically correlated phenomenon occurring on a longer timescale is the magnetization precession after the ultrafast demagnetization process, if a magnetic field is applied to tilt the magnetization vector away from its easy direction, which can be attributed to the change of anisotropy after laser heating. In an in-plane magnetized Pt/Co/Pt thin film with perpendicular interface anisotropy, we found excellent agreement between th...
The local spin-density approximation (LSDA) is known to describe poorly the electronic structure of ...
Even twenty years after the discovery of ultrafast demagnetization of ferromagnetic materials induce...
The authors present a microscopic model that successfully explains the ultrafast equilibration of ma...
Ultrafast optical excitation of a metal ferromagnetic film results in a modification of the magnetoc...
We have studied the effect of ultrafast laser-heating on the magnetization dynamics of perpendicular...
Time-resolved pump-probe measurements of the magnetic phase change from paramagnetic to ferromagneti...
We discuss fundamental aspects of laser-induced ultrafast demagnetization probed by the time-resolve...
The switching of magnetic domains induced by an ultrashort laser pulse has been demonstrated in nano...
The rate and pathways of relaxation of a magnetic medium to its equilibrium following excitation wit...
Ultrafast laser-induced dynamics in a ferrimagnetic gadolinium iron cobalt (Gd/FeCo) multilayer with...
Spin-lattice coupling is one of the most prominent interactions mediating response of spin ensemble ...
This is the final version of the article. Available from American Physical Society via the DOI in th...
In order to explore the role of enhanced spin-orbit interactions on the laser-induced ultrafast magn...
The local spin-density approximation (LSDA) is known to describe poorly the electronic structure of ...
Even twenty years after the discovery of ultrafast demagnetization of ferromagnetic materials induce...
The authors present a microscopic model that successfully explains the ultrafast equilibration of ma...
Ultrafast optical excitation of a metal ferromagnetic film results in a modification of the magnetoc...
We have studied the effect of ultrafast laser-heating on the magnetization dynamics of perpendicular...
Time-resolved pump-probe measurements of the magnetic phase change from paramagnetic to ferromagneti...
We discuss fundamental aspects of laser-induced ultrafast demagnetization probed by the time-resolve...
The switching of magnetic domains induced by an ultrashort laser pulse has been demonstrated in nano...
The rate and pathways of relaxation of a magnetic medium to its equilibrium following excitation wit...
Ultrafast laser-induced dynamics in a ferrimagnetic gadolinium iron cobalt (Gd/FeCo) multilayer with...
Spin-lattice coupling is one of the most prominent interactions mediating response of spin ensemble ...
This is the final version of the article. Available from American Physical Society via the DOI in th...
In order to explore the role of enhanced spin-orbit interactions on the laser-induced ultrafast magn...
The local spin-density approximation (LSDA) is known to describe poorly the electronic structure of ...
Even twenty years after the discovery of ultrafast demagnetization of ferromagnetic materials induce...
The authors present a microscopic model that successfully explains the ultrafast equilibration of ma...
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