Spin Dynamics and Damping in Ferromagnetic Thin Films and Nanostructures
Spin Dynamics and Damping in Ferromagnetic Thin Films and Nanostructures

Author: Anjan Barman

Publisher: Springer

Published: 2017-12-27

Total Pages: 166

ISBN-13: 3319662961

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This book provides a comprehensive overview of the latest developments in the field of spin dynamics and magnetic damping. It discusses the various ways to tune damping, specifically, dynamic and static control in a ferromagnetic layer/heavy metal layer. In addition, it addresses all optical detection techniques for the investigation of modulation of damping, for example, the time-resolved magneto-optical Kerr effect technique.

Ultrafast Magnetism I
Ultrafast Magnetism I

Author: Jean-Yves Bigot

Publisher: Springer

Published: 2014-08-05

Total Pages: 361

ISBN-13: 3319077430

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This volume on Ultrafast Magnetism is a collection of articles presented at the international “Ultrafast Magnetization Conference” held at the Congress Center in Strasbourg, France, from October 28th to November 1st, 2013. This first conference, which is intended to be held every two years, received a wonderful attendance and gathered scientists from 27 countries in the field of Femtomagnetism, encompassing many theoretical and experimental research subjects related to the spins dynamics in bulk or nanostructured materials. The participants appreciated this unique opportunity for discussing new ideas and debating on various physical interpretations of the reported phenomena. The format of a single session with many oral contributions as well as extensive time for poster presentations allowed researchers to have a detailed overview of the field. Importantly, one could sense that, in addition to studying fundamental magnetic phenomena, ultrafast magnetism has entered in a phase where applied physics and engineering are playing an important role. Several devices are being proposed with exciting R&D perspectives in the near future, in particular for magnetic recording, time resolved magnetic imaging and spin polarized transport, therefore establishing connections between various aspects of modern magnetism. Simultaneously, the diversity of techniques and experimental configurations has flourished during the past years, employing in particular Xrays, visible, infra-red and terahertz radiations. It was also obvious that an important effort is being made for tracking the dynamics of spins and magnetic domains at the nanometer scale, opening the pathway to exciting future developments. The concerted efforts between theoretical and experimental approaches for explaining the dynamical behaviors of angular momentum and energy levels, on different classes of magnetic materials, are worth pointing out. Finally it was unanimously recognized that the quality of the scientific oral and poster presentations contributed to bring the conference to a very high international standard.

Ultrafast Magnetization Dynamics in the Presence of Strong Spin-Orbit Coupling
Ultrafast Magnetization Dynamics in the Presence of Strong Spin-Orbit Coupling

Author: Colleen Kantner

Publisher:

Published: 2010

Total Pages: 162

ISBN-13:

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The time-resolved magneto-optical Kerr effect is used to study magnetization dynamics in thin films of SrRuO3. This thesis focuses on two topics in particular: the influence of epitaxial strain on magnetization dynamics and magnetic orientation, and the origin of the dramatic slowing down of the demagnetization time near the Curie temperature. Magnetization dynamics in SrRuO3 are initiated by a temperature dependent rotation of the magnetocrystalline anisotropy field direction upon thermal excitation by the laser. The resulting dynamics depend on the orientation of the anisotropy field in the sample. We observe a change in the orientation as a function of epitaxially strain by looking at SrRuO3grown on various substrates with (001) orientation and distinct in-plane lattice parameters. We find that in SrRuO3 films under compressive strain, the anisotropy field moves in a plane perpendicular to the film surface. Beyond a certain degree of tensile strain, the anisotropy field moves in the plane parallel to the surface of the film. Support of this result from theoretical calculations and XRD measurements is discussed and attempts to strain tune films with a piezoelectric substrate are described. Near the Curie temperature, the demagnetization time in SrRuO3/SrTiO3(111) is found to increase by more than a factor of ten. Here, we study this effect in detail and derive an equation for the demagnetization time in terms of the spin flip time, starting from detailed balance and borrowing from a recent spin-based model for demagnetization[57, 58]. The demagnetization time is found to be proportional to the spin flip time and inversely proportional to the reduced temperature near Tc, allowing us to measure the spin flip time. We also relate the spin flip time and the damping parameter to the Curie temperature and find that the previously speculated upon relationship between the damping parameter in SrRuO3 and the anomalous Hall effect is strengthened.

Studying Ultrafast Magnetization Dynamics Through Faraday Effect and Using Linearly Polarized High Order Harmonics
Studying Ultrafast Magnetization Dynamics Through Faraday Effect and Using Linearly Polarized High Order Harmonics

Author: Carla Alves

Publisher:

Published: 2018

Total Pages: 0

ISBN-13:

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In this thesis, we demonstrate that a linearly polarized XUV harmonic radiation can be employed in absorption spectroscopy to access the magnetization state of any type of sample, unlike all the techniques developed so far. Indeed, for the first time, time-resolved experiments were realized through the magneto-optical Faraday effect, which we exploit around the magnetically dichroic Co M2,3 absorption edge at 60 eV. The pump-probe technique was used to obtain the dynamic response of the magnetic samples upon laser excitation. The changes in the magnetization of the sample are associated to the changes in the polarization of the probe harmonic beam, i.e. the rotation of the polarization axis and the variation of the ellipticity. The main results of this thesis demonstrate that the measurement of the Faraday effect offers an ultra-sensitive way to characterize the magnetization of very thin films (only a few nm of magnetic materials). Moreover, since the Faraday effect takes place over a wide spectral range, it is possible to follow the simultaneous dynamics of different materials and thus to study very complex materials.

Magnetization Dynamics at Elevated Temperatures
Magnetization Dynamics at Elevated Temperatures

Author: Lei Xu

Publisher:

Published: 2013

Total Pages: 123

ISBN-13:

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The area of ultrafast (sub-nanosecond) magnetization dynamics of ferromagnetic elements and thin films, usually driven by a strong femtosecond laser pulse, has experienced intense research interest. In this dissertation, laser-induced demagnetization is theoretically studied by taking into account interactions among electrons, spins, and lattice. We propose a microscopic approach under the three temperature framework and derive the equations that govern the demagnetization at arbitrary temperatures. To address the question of magnetization reversal at high temperatures, the conventional Landau-Lifshitz equation is obviously unsatisfactory, since it fails to describe the longitudinal relaxation. So by using the equation of motion for the quantum density matrix within the instantaneous local relaxation time approximation, we propose an effective equation that is capable of addressing magnetization dynamics for a wide range of temperatures. The longitudinal and transverse relaxations are analyzed, magnetization reversal processes near Curie temperatures is also studied. Furthermore, we compared our derived Self-consistent Bloch equation and Landau-Lifshitz-Bloch equation in detail. Finally, the demagnetzation dynamics for ferromagnetic and ferrimagnetic alloys is studied by solving the Self-consistent Bloch equation.