Theory of laser-induced demagnetization at high temperatures
TLDR
In this article, a self-consistent random phase approximation of the spin system was derived for a broad range of temperature and the dependence of demagnetization on the temperature and pumping laser intensity was calculated in detail.Abstract:
Laser-induced demagnetization is theoretically studied by explicitly taking into account interactions among electrons, spins, and lattice. Assuming that the demagnetization processes take place during the thermalization of the subsystems, the temperature dynamics is given by the energy transfer between the thermalized interacting baths. These energy transfers are accounted for explicitly through electron-magnon and electron-phonon interactions, which govern the demagnetization time scale. By properly treating the spin system in a self-consistent random phase approximation, we derive magnetization dynamic equations for a broad range of temperature. The dependence of demagnetization on the temperature and pumping laser intensity is calculated in detail. In particular, we show several salient features for understanding magnetization dynamics near the Curie temperature. While the critical slowdown in dynamics occurs, we find that an external magnetic field can restore the fast dynamics. We discuss the implication of the fast dynamics in the application of heat-assisted magnetic recording.read more
Citations
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S-d model for local and nonlocal spin dynamics in laser-excited magnetic heterostructures
TL;DR: In this article, a joint microscopic theory for the laser-induced magnetization dynamics and spin transport in magnetic heterostructures based on the s-d interaction is discussed, where angular momentum transfer is mediated by scattering of itinerant s electrons with the localized (d electron) spins.
Journal ArticleDOI
Reexamination of the Elliott-Yafet spin-relaxation mechanism
TL;DR: In this paper, the authors derived a modified expression for the Elliott-Yafet spin relaxation time, which is not valid for pronounced spin mixing as it equates the pseudo-spin polarization with the spin polarization.
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Ferromagneticlike states and all-optical magnetization switching in ferrimagnets
TL;DR: In this article, the authors studied the light-induced magnetization switching in a binary ferrimagnet with two different species of magnetic ions, where the localized spins are coupled with spins of itinerant electrons via the $s\text{\ensuremath{-}}d$ exchange interaction.
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Laser-induced terahertz spin transport in magnetic nanostructures arises from the same force as ultrafast demagnetization
TL;DR: In this paper , it was shown that laser-induced ultrafast demagnetization (UDM) of a metallic ferromagnet has the same time evolution as terahertz spin transport (TST) from $F$ into an adjacent normal metal $N$.
Journal ArticleDOI
Re-examination of the Elliott–Yafet spin-relaxation mechanism
TL;DR: In this article, the authors derived a modified expression for the EY spin relaxation time for Kramers degenerate bands, which is based on the reduced electronic density matrix (EDM).
References
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Ultrafast optical manipulation of magnetic order
TL;DR: In this article, the authors review the progress in this field of laser manipulation of magnetic order in a systematic way and show that the polarization of light plays an essential role in the manipulation of the magnetic moments at the femtosecond time scale.
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All-optical magnetic recording with circularly polarized light.
C.D. Stanciu,Fredrik Hansteen,Alexey Kimel,Andrei Kirilyuk,Arata Tsukamoto,Akiyoshi Itoh,Theo Rasing +6 more
TL;DR: It is experimentally demonstrate that the magnetization can be reversed in a reproducible manner by a single 40 femtosecond circularly polarized laser pulse, without any applied magnetic field, revealing an ultrafast and efficient pathway for writing magnetic bits at record-breaking speeds.
Journal ArticleDOI
Heat-assisted magnetic recording by a near-field transducer with efficient optical energy transfer
William Albert Challener,Chubing Peng,Amit Vasant Itagi,Duane Karns,Wei Peng,Yingguo Peng,XiaoMin Yang,Xiaobin Zhu,N. J. Gokemeijer,Y. T. Hsia,Ganping Ju,Robert Earl Rottmayer,Michael Allen Seigler,Edward Charles Gage +13 more
TL;DR: In this article, a near-field transducer with efficient optical energy transfer was used to record a 70-nm track above the Curie point in nanoseconds and record data at an areal density of ∼375 Tb/m−2.