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101. Part of a collection of reviews on antiferromagnetic spintronics. Antiferromagnetic dynamics, spin-texures, and nanostructures

Author

Gomonay, Olena, Baltz, Vincent, Brataas, Arne, and Tserkovnyak, Yaroslav

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Other Condensed Matter
Abstract

Antiferromagnets as active elements of spintronics can be faster than their ferromagnetic counterparts and more robust to magnetic noise. Owing to the strongly exchange-coupled magnetic sublattice structure, antiferromagnetic order parameter dynamics are qualitatively different and thus capable of engendering novel device functionalities. In this review, we discuss antiferromagnetic textures -- nanoparticles, domain walls, and skyrmions, -- under the action of different spin torques. We contrast the antiferromagnetic and ferromagnetic dynamics, with a focus on the features that can be relevant for applications., Comment: Part of a collection of reviews on antiferromagnetic spintronics

Published
2017

102. Controlling Chiral Domain Walls in Antiferromagnets Using Spin-Wave Helicity

Author

Qaiumzadeh, Alireza, Kristiansen, Lars A., and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

In antiferromagnets, the Dzyaloshinskii-Moriya interaction lifts the degeneracy of left- and right-circularly polarized spin waves. This relativistic coupling increases the efficiency of spin-wave-induced domain wall motion and leads to higher drift velocities. We show that in biaxial antiferromagnets, the spin-wave helicity controls both the direction and magnitude of the magnonic force on chiral domain walls. By contrast, in uniaxial antiferromagnets, the magnonic force is propulsive with a helicity dependent strength., Comment: 4.5 pages, 3 figures

Published
2017
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103. Interfacial magnon-mediated superconductivity in twisted bilayer graphene

Author

Bjørnulf Brekke, Asle Sudbø, and Arne Brataas

Subjects
superconductivity, magnetism, heterostructure, Science, Physics, QC1-999
Abstract

The interfacial coupling between electrons and magnons in adjacent layers can mediate an attractive electron–electron interaction and induce superconductivity. We consider magic-angle twisted bilayer graphene sandwiched between two ferromagnetic insulators to optimize this effect. As a result, magnons induce an interlayer superconducting state characterized by p -wave symmetry. We investigate two candidate ferromagnets. The van der Waals ferromagnet CrI _3 stands out because it allows compression to tune the superconducting state with an exponential sensitivity. This control adds a new dimension to the tunability of twisted bilayer graphene. Our results open a new path for exploring magnon-induced superconductivity.

Published
2024
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104. Aktivitet som ressurs hos pensjonister i det moderne samfunn

Author

Hanne Cecilie Johnsen, Kari Grande Andresen, Aud Emelie Evensen, and Hildfrid Vikkelsmo Brataas

Subjects
aktivitet, eldre, helse, livskvalitet, modernitet, pensjonister, Nursing, RT1-120
Abstract

Innledning: Samfunnet er i endring. For å møte en økende andel eldre i befolkningen på en bærekraftig måte, er ‘aktiv aldring’ et offentlig satsingsområde. Det er behov for mer kunnskap om aktivitet hos funksjonsfriske i den aldrende befolkningen. Metode: Kvalitativ beskrivende metode. Konvensjonell innholdsanalyse av skriftlige rapporter fra individuelle intervjuer med funksjonsfriske, hjemmeboende alderspensjonister om aktivitet i hverdagen. Resultat: Pensjonistene kombinerte tradisjonell privat fritidsaktivitet med moderne aktiviteter og bidrog i samfunnsvirksomheter. Aktivitet var en ressurs for å holde seg i form og oppleve mening og trivsel i hverdagslivet. Konklusjon: Funksjonsfriske alderspensjonister opplever identitetsbevarende kontinuitet, trivsel, mening og helsegevinst ved å kombinere tradisjonelle og nye samfunnstilrettelagte aktivitetstyper og samfunnsnyttig aktivitet. Studiens funn peker på at funksjonsfriske alderspensjonister kan være ressurser i en bærekraftig utvikling av et aldersvennlig samfunn. Det er behov for mer kunnskap om helsefremmende og kulturforankrede aktivitetstiltak som kan møte samfunnets intensjon om aktiv aldring i den aldrende befolkningen. Metode: Kvalitativ beskrivende metode. Konvensjonell innholdsanalyse av studenters skriftlige rapporter om individuelle intervjuer med hjemmeboende alderspensjonister om aktivitet i hverdagen. Resultat: Analysen avdekket to tema; aktivitetstyper og helse og livskvalitet. Pensjonistene kombinerte tradisjonell privat fritidsaktivitet og aktiviteter det er lagt til rette for i det moderne samfunn. De var både ytere og nytere i samfunnstilrettelagt aktivitet. Noen tradisjonelle aktiviteter synes å forsvinne. Helse og livskvalitet omhandlet å holde seg i form, mening i livet og velbefinnende og glede. Konklusjon: Det tradisjonelle og det moderne synes å sameksistere i pensjonistenes aktivitetsvalg og gi opplevelse av mening i tilværelsen. Aktivitet fremstår som salutogen helseressurs. Det er behov for mer kunnskap om aktivitetstilbud til eldregenerasjonen.

Published
2023
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106. Spin Pumping and Inverse Spin Hall Voltages from Dynamical Antiferromagnets

Author

Johansen, Øyvind and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Dynamical antiferromagnets pump spins efficiently into adjacent conductors as ferromagnets. The high antiferromagnetic resonance frequencies represent a challenge for experimental detection, but magnetic fields can reduce these resonance frequencies. We compute the inverse spin Hall voltages resulting from dynamical spin excitations as a function of a magnetic field along the easy axis and the polarization of the driving AC magnetic field perpendicular to the easy axis. We consider the insulating antiferromagnets MnF$_2$, FeF$_2$, and NiO. Near the spin-flop transition, there is a significant enhancement of the DC spin pumping and inverse spin Hall voltage for the uniaxial antiferromagnets MnF$_2$ and FeF$_2$. In the biaxial NiO, the voltages are much weaker, and there is no spin-flop enhancement of the DC component.

Published
2017
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107. Enhanced Spin Conductance of a Thin-Film Insulating Antiferromagnet

Author

Bender, Scott A., Skarsvåg, Hans, Brataas, Arne, and Duine, Rembert A.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We investigate spin transport by thermally excited spin waves in an antiferromagnetic insulator. Starting from a stochastic Landau-Lifshitz-Gilbert phenomenology, we obtain the out-of-equilibrium spin-wave properties. In linear response to spin biasing and a temperature gradient, we compute the spin transport through a normal metal$|$antiferromagnet$|$normal metal heterostructure. We show that the spin conductance diverges as one approaches the spin-flop transition; this enhancement of the conductance should be readily observable by sweeping the magnetic field across the spin-flop transition. The results from such experiments may, on the one hand, enhance our understanding of spin transport near a phase transition, and on the other be useful for applications that require a large degree of tunability of spin currents. In contrast, the spin Seebeck coefficient does not diverge at the spin-flop transition. Furthermore, the spin Seebeck coefficient is finite even at zero magnetic field, provided that the normal metal contacts break the symmetry between the antiferromagnetic sublattices., Comment: 8 pages, 3 figures

Published
2017
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108. Spin Superfluidity in Biaxial Antiferromagnetic Insulators

Author

Qaiumzadeh, Alireza, Skarsvåg, Hans, Holmqvist, Cecilia, and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Antiferromagnets may exhibit spin superfluidity since the dipole interaction is weak. We seek to establish that this phenomenon occurs in insulators such as NiO, which is a good spin conductor according to previous studies. We investigate nonlocal spin transport in a planar antiferromagnetic insulator with a weak uniaxial anisotropy. The anisotropy hinders spin superfluidity by creating a substantial threshold that the current must overcome. Nevertheless, we show that applying a high magnetic field removes this obstacle near the spin-flop transition of the antiferromagnet. Importantly, the spin superfluidity can then persist across many micrometers, even in dirty samples., Comment: 5.5 pages, 4 figures

Published
2016
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109. Spin Pumping, Dissipation, and Direct and Alternating Inverse Spin Hall Effects in Magnetic Insulator-Normal Metal Bilayers

Author

Kapelrud, André and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We theoretically consider the spin-wave mode- and wavelength-dependent enhancement of the Gilbert damping in magnetic insulator--normal metal bilayers due to spin pumping as well as the enhancement's relation to direct and alternating inverse spin Hall voltages in the normal metal. In the long-wavelength limit, including long-range dipole interactions, the ratio of the enhancement for transverse volume modes to that of the macrospin mode is equal to two. With an out-of-plane magnetization, this ratio decreases with both an increasing surface anisotropic energy and mode number. If the surface anisotropy induces a surface state, the enhancement can be an order of magnitude larger than for to the macrospin. With an in-plane magnetization, the induced dissipation enhancement can be understood by mapping the anisotropy parameter to the out-of-plane case with anisotropy. For shorter wavelengths, we compute the enhancement numerically and find good agreement with the analytical results in the applicable limits. We also compute the induced direct- and alternating-current inverse spin Hall voltages and relate these to the magnetic energy stored in the ferromagnet. Because the magnitude of the direct spin Hall voltage is a measure of spin dissipation, it is directly proportional to the enhancement of Gilbert damping. The alternating spin Hall voltage exhibits a similar in-plane wave-number dependence, and we demonstrate that it is greatest for surface-localized modes.

Published
2016
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110. Electrically Driven Bose-Einstein Condensation of Magnons in Antiferromagnets

Author

Fjærbu, Eirik Løhaugen, Rohling, Niklas, and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We explore routes to realize electrically driven Bose-Einstein condensation of magnons in insulating antiferromagnets. Even in insulating antiferromagnets, the localized spins can strongly couple to itinerant spins in adjacent metals via spin-transfer torque and spin pumping. We describe the formation of steady-state magnon condensates controlled by a spin accumulation polarized along the staggered field in an adjacent normal metal. Two types of magnons exist in antiferromagnets, which carry opposite magnetic moments. Consequently, and in contrast to ferromagnets, Bose-Einstein condensation can occur for either sign of the spin accumulation. This condensation may occur even at room temperature when the interaction with the normal metal is fast compared to the relaxation processes within the antiferromagnet. In antiferromagnets, the operating frequencies of the condensate are orders of magnitude faster than in ferromagnets., Comment: 13 pages, 1 figure

Published
2016
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111. Spin-Orbit-Induced Spin, Charge, and Energy Transport in Diffusive Superconductors

Author

Espedal, Camilla, Lange, Peter, Sadjina, Severin, Mal'shukov, A. G., and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We consider the spin-orbit-induced spin Hall effect and spin swapping in diffusive superconductors. By employing the non-equilibrium Keldysh Green's function technique in the quasiclassical approximation, we derive coupled transport equations for the spectral spin and particle distributions and for the energy density in the elastic scattering regime. We compute four contributions to the spin Hall conductivity, namely, skew scattering, side-jump, anomalous velocity, and the Yafet contribution. The reduced density of states in the superconductor causes a renormalization of the spin Hall angle. We demonstrate that all four of these contributions to the spin Hall conductivity are renormalized in the same way in the superconducting state. In its simplest manifestation, spin swapping transforms a primary spin current into a secondary spin current with swapped current and polarization directions. We find that the spin-swapping coefficient is not explicitly but only implicitly affected by superconducting correlations through the renormalized diffusion coefficients. We discuss experimental consequences for measurements of the (inverse) spin Hall effect and spin swapping in four-terminal geometries. In our geometry, below the superconducting transition temperature, the spin-swapping signal is increased an order of magnitude while changes in the (inverse) spin Hall signal are moderate., Comment: 20 pages

Published
2016
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112. Phenomenology of current-induced skyrmion motion in antiferromagnets

Author

Velkov, Hristo, Gomonay, Olena, Beens, Maarten, Schwiete, Georg, Brataas, Arne, Sinova, Jairo, and Duine, Rembert A.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study current-driven skyrmion motion in uniaxial thin film antiferromagnets in the presence of the Dzyaloshinskii-Moriya interactions and in an external magnetic field. We phenomenologically include relaxation and current-induced torques due to both spin-orbit coupling and spatially inhomogeneous magnetic textures in the equation for the N\'eel vector of the antiferromagnet. Using the collective coordinate approach we apply the theory to a two-dimensional antiferromagnetic skyrmion and estimate the skyrmion velocity under an applied DC electric current., Comment: 14 pages, 3 figures, 1 table

Published
2016
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114. Terahertz Antiferromagnetic Spin Hall Nano-Oscillator

Author

Cheng, Ran, Xiao, Di, and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

We consider the current-induced dynamics of insulating antiferromagnets in a spin Hall geometry. Sufficiently large in-plane currents perpendicular to the N\'{e}el order trigger spontaneous oscillations at frequencies between the acoustic and the optical eigenmodes. The direction of the driving current determines the chirality of the excitation. When the current exceeds a threshold, the combined effect of spin pumping and current-induced torques introduces a dynamic feedback that sustains steady-state oscillations with amplitudes controllable via the applied current. The ac voltage output is calculated numerically as a function of the dc current input for different feedback strengths. Our findings open a route towards terahertz antiferromagnetic spin-torque oscillators., Comment: 5+ pages, 4 figures

Published
2015
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115. Spin-orbit torques for current parallel and perpendicular to a domain wall

Author

Schulz, Tomek, Alejos, Oscar, Martinez, Eduardo, Hals, Kjetil M. D., Garcia, Karin, Lee, Kyujoon, Conte, Roberto Lo, Karnad, Gurucharan V., Moretti, Simone, Ocker, Berthold, Ravelosona, Dafiné, Brataas, Arne, and Kläui, Mathias

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report field- and current-induced domain wall (DW) depinning experiments in Ta/Co20Fe60B20/MgO nanowires through a Hall cross geometry. While purely field-induced depinning shows no angular dependence on in-plane fields, the effect of the current depends crucially on the internal DW structure, which we manipulate by an external magnetic in-plane field. We show for the first time depinning measurements for a current sent parallel to the DW and compare its depinning efficiency with the conventional case of current flowing perpendicularly to the DW. We find that the maximum efficiency is similar for both current directions within the error bars, which is in line with a dominating damping-like spin-orbit torque (SOT) and indicates that no large additional torques arise for currents parallel to the DW. Finally, we find a varying dependence of the maximum depinning efficiency angle for different DWs and pinning levels. This emphasizes the importance of our full angular scans compared to previously used measurements for just two field directions (parallel and perpendicular to the DW) and shows the sensitivity of the spin-orbit torque to the precise DW structure and pinning sites., Comment: 11 pages, 3 figures

Published
2015
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116. Heat transport between antiferromagnetic insulators and normal metals

Author

Brataas, Arne, Skarsvåg, Hans, Tveten, Erlend G., and Fjærbu, Eirik Løhaugen

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Antiferromagnetic insulators can become active spintronics components by controlling and detecting their dynamics via spin currents in adjacent metals. This cross-talk occurs via spin-transfer and spin-pumping, phenomena that have been predicted to be as strong in antiferromagnets as in ferromagnets. Here, we demonstrate that a temperature gradient drives a significant heat flow from magnons in antiferromagnetic insulators to electrons in adjacent normal metals. The same coefficients as in the spin-transfer and spin-pumping processes also determine the thermal conductance. However, in contrast to ferromagnets, the heat is not transferred via a spin Seebeck effect which is absent in antiferromagnetic insulator-normal metal systems. Instead, the heat is transferred via a large staggered spin Seebeck effect., Comment: 4+ pages, 1 figure

Published
2015
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117. The Intrinsic Magnetization of Antiferromagnetic Textures

Author

Tveten, Erlend G., Müller, Tristan, Linder, Jacob, and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Antiferromagnets (AFMs) exhibit intrinsic magnetization when the order parameter spatially varies. This intrinsic spin is present even at equilibrium and can be interpreted as a twisting of the homogeneous AFM into a state with a finite spin. Because magnetic moments couple directly to external magnetic fields, the intrinsic magnetization can alter the dynamics of antiferromagnetic textures under such influence. Starting from the discrete Heisenberg model, we derive the continuum limit of the free energy of AFMs in the exchange approximation and explicitly rederive that the spatial variation of the antiferromagnetic order parameter is associated with an intrinsic magnetization density. We calculate the magnetization profile of a domain wall and discuss how the intrinsic magnetization reacts to external forces. We show conclusively, both analytically and numerically, that a spatially inhomogeneous magnetic field can move and control the position of domain walls in AFMs. By comparing our model to a commonly used alternative parametrization procedure for the continuum fields, we show that the physical interpretations of these fields depend critically on the choice of parametrization procedure for the discrete-to-continuous transition. This can explain why a significant amount of recent studies of the dynamics of AFMs, including effective models that describe the motion of antiferromagnetic domain walls, have neglected the intrinsic spin of the textured order parameter., Comment: 12 pages, 7 figures

Published
2015
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118. Spin superfluidity and long-range transport in thin-film ferromagnets

Author

Skarsvåg, Hans, Holmqvist, Cecilia, and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In ferromagnets, magnons may condense into a single quantum state. Analogous to superconductors, this quantum state may support transport without dissipation. Recent works suggest that longitudinal spin transport through a thin-film ferromagnet is an example of spin superfluidity. Although intriguing, this tantalizing picture ignores long-range dipole interactions; we demonstrate that such interactions dramatically affect spin transport. In single-film ferromagnets, "spin superfluidity" only exists at length scales (a few hundred nanometers in yttrium iron garnet) somewhat larger than the exchange length. Over longer distances, dipolar interactions destroy spin superfluidity. Nevertheless, we predict re-emergence of spin superfluidity in tri-layer ferromagnet--normal metal--ferromagnet films of $\sim 1\, \mu$m in size. Such systems also exhibit other types of long-range spin transport in samples several micrometers in size., Comment: 5 pages, 3 figures

Published
2015
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119. Spintronics and Magnon Bose-Einstein Condensation

Author

Duine, R. A., Brataas, Arne, Bender, Scott A., and Tserkovnyak, Yaroslav

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Spintronics is the science and technology of electric control over spin currents in solid-state-based devices. Recent advances have demonstrated a coupling between electronic spin currents in non-magnetic metals and magnons in magnetic insulators. The coupling is due to spin transfer and spin pumping at interfaces between the normal metals and magnetic insulators. In this Chapter, we review these developments and the prospects they raise for electric control of quasi-equilibrium magnon Bose-Einstein condensates and spin superfluidity., Comment: This is a chapter for a book entitled "Universal Themes of Bose-Einstein Condensation", to be published by Cambridge University Press, edited by David Snoke, Nikolaos Proukakis and Peter Littlewood

Published
2015

120. Electron-Magnon Scattering in Magnetic Heterostructures Far Out-of-Equilibrium

Author

Tveten, Erlend G., Brataas, Arne, and Tserkovnyak, Yaroslav

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We present a theory of out-of-equilibrium ultrafast spin dynamics in magnetic heterostructures based on the s-d model of ferromagnetism. Both in the bulk and across interfaces, the exchange processes between the itinerant s and the localized d electrons are described by kinetic rate equations for electron-magnon spin-flop scattering. The principal channel for dissipation of angular momentum is provided by spin relaxation of the itinerant electrons. Our theory extends interfacial spin phenomena such as torques, pumping, and the Peltier and Seebeck effects to address laser-induced rapid spin dynamics, in which the effective electron temperature may approach or even exceed the Curie temperature., Comment: 4 pages, 3 figures

Published
2015
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121. Spin-Motive Forces and Current-Induced Torques in Ferromagnets

Author

Hals, Kjetil M. D. and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In metallic ferromagnets, the spin-transfer torque and spin-motive force are known to exhibit a reciprocal relationship. Recent experiments on ferromagnets with strong spin-orbit coupling have revealed a rich complexity in the interaction between itinerant charge carriers and magnetization, but a full understanding of this coupled dynamics is lacking. Here, we develop a general phenomenology of the two reciprocal processes of charge pumping by spin-motive forces and current-driven magnetization dynamics. The formalism is valid for spin-orbit coupling of any strength and presents a systematic scheme for deriving all possible torque and charge-pumping terms that obey the symmetry requirements imposed by the point group of the system. We demonstrate how the different charge pumping and torque contributions are connected via the Onsager reciprocal relations. The formalism is applied to two important classes of systems: isotropic ferromagnets with non-uniform magnetization and homogeneous ferromagnets described by the point group $C_{2v}$., Comment: Final version accepted by Physical Review B

Published
2015
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122. Patient Involvement During a Pathway of Home-Based Reablement for Older Persons: A Longitudinal Single-Case Study

Author

Ingstad K, Moe A, and Brataas HV

Subjects
activities of daily living, adl, co-creation, reablement services, patient empowerment, patient participation, Medicine (General), R5-920
Abstract

Kari Ingstad, Aud Moe, Hildfrid Vikkelsmo Brataas Faculty of Nursing and Health Sciences, Nord University, Campus Levanger, Levanger, NorwayCorrespondence: Kari IngstadFaculty of Nursing and Health Sciences, Postbox 93, Levanger, 7601, NorwayTel +47 913 37332Email Kari.ingstad@nord.noBackground: In recent years, home-based reablement has become an increasingly popular way to provide rehabilitation services. This health care service aims to enable older persons to live longer at home while reducing the need for institutionalization. To ensure the provision of high-quality services, there is a continual need for research on issues of user involvement and co-creation during the pathway of the reablement process.Purpose: This study focused on user involvement and participation with health care professionals during the reablement process.Methods: This was a longitudinal, instrumental single-case study, in which one 85-year-old female patient was followed over the pathway of a six-week reablement process. Data were collected at three stages, including the goal-mapping phase, evaluation phase, and three weeks after completing reablement.Results: Our analyses revealed two themes for the goal-mapping phase (dialogue led by the care provider and main goal), three themes for the implementation phase (the home as the preferred setting, little influence on organizational factors, and participation, influence, and motivation), and three themes for the evaluation phase (patient understanding as a precondition, motivated by weak paternalism, and self-determination requires clear communication).Conclusion: The patient becomes involved through a partly co-creation process. During this time, they are involved, motivated, and influenced over the pathway of reablement. Health care providers must avoid implementing too much control during the pathway of home-based reablement, as patients have contextual knowledge that care providers do not possess.Keywords: activities of daily living, ADL, co-creation, reablement services, patient empowerment, patient participation

Published
2021

124. Backscattering in helical edge states from a magnetic impurity and Rashba disorder

Author

Kimme, Lukas, Rosenow, Bernd, and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Transport by helical edge states of a quantum spin Hall insulator is experimentally characterized by a weakly temperature-dependent mean free path of a few microns and by reproducible conductance oscillations, challenging proposed theoretical explanations. We consider a model where edge electrons experience spatially random Rashba spin-orbit coupling and couple to a magnetic impurity with spin S >= 1/2. In a finite bias steady state, we find for S > 1/2 an impurity induced resistance with a temperature dependence in agreement with experiments. Since backscattering is elastic, interference between different scatterers possibly explains conductance fluctuations., Comment: 8 pages, 3 figures, contains supplemental material, corresponds to published version

Published
2015
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127. Magnonic Charge Pumping via Spin-Orbit Coupling

Author

Ciccarelli, Chiara, Hals, Kjetil M. D., Irvine, Andrew, Novak, Vit, Tserkovnyak, Yaroslav, Kurebayashi, Hidekazu, Brataas, Arne, and Ferguson, Andrew

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

The interplay between spin, charge, and orbital degrees of freedom has led to the development of spintronic devices like spin-torque oscillators, spin-logic devices, and spin-transfer torque magnetic random-access memories. In this development spin pumping, the process where pure spin-currents are generated from magnetisation precession, has proved to be a powerful method for probing spin physics and magnetisation dynamics. The effect originates from direct conversion of low energy quantised spin-waves in the magnet, known as magnons, into a flow of spins from the precessing magnet to adjacent normal metal leads. The spin-pumping phenomenon represents a convenient way to electrically detect magnetisation dynamics, however, precessing magnets have been limited so far to pump pure spin currents, which require a secondary spin-charge conversion element such as heavy metals with large spin Hall angle or multi-layer layouts to be detectable. Here, we report the experimental observation of charge pumping in which a precessing ferromagnet pumps a charge current, demonstrating direct conversion of magnons into high-frequency currents via the relativistic spin-orbit interaction. The generated electric current, differently from spin currents generated by spin-pumping, can be directly detected without the need of any additional spin to charge conversion mechanism and amplitude and phase information about the relativistic current-driven magnetisation dynamics. The charge-pumping phenomenon is generic and gives a deeper understanding of the recently observed spin-orbit torques, of which it is the reciprocal effect and which currently attract interest for their potential in manipulating magnetic information. Furthermore, charge pumping provides a novel link between magnetism and electricity and may find application in sourcing alternating electric currents., Comment: 3 figures

Published
2014
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128. Anderson Localization and Quantum Hall Effect: Numerical Observation of Two Parameter Scaling

Author

Werner, Miklós Antal, Brataas, Arne, von Oppen, Felix, and Zaránd, Gergely

Subjects
Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

A two dimensional disordered system of non-interacting fermions in a homogeneous magnetic field is investigated numerically. By introducing a new magnetic gauge, we explore the renormalization group (RG) flow of the longitudinal and Hall conductances with higher precision than previously studied, and find that the flow is consistent with the predictions of Pruisken and Khmelnitskii. The extracted critical exponents agree with the results obtained by using transfer matrix methods. The necessity of a second parameter is also reflected in the level curvature distribution. Near the critical point the distribution slightly differs from the prediciton of random matrix theory, in agreement with previous works. Close to the quantum Hall fixed points the distribution is lognormal since here states are strongly localized., Comment: 6 pages, 7 figures

Published
2014
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129. Spin Waves in Ferromagnetic Insulators Coupled via a Normal Metal

Author

Skarsvag, Hans, Kapelrud, Andre, and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Herein, we study the spin-wave dispersion and dissipation in a ferromagnetic insulator--normal metal--ferromagnetic insulator system. Long-range dynamic coupling because of spin pumping and spin transfer lead to collective magnetic excitations in the two thin-film ferromagnets. In addition, the dynamic dipolar field contributes to the interlayer coupling. By solving the Landau-Lifshitz-Gilbert-Slonczewski equation for macrospin excitations and the exchange-dipole volume as well as surface spin waves, we compute the effect of the dynamic coupling on the resonance frequencies and linewidths of the various modes. The long-wavelength modes may couple acoustically or optically. In the absence of spin-memory loss in the normal metal, the spin-pumping-induced Gilbert damping enhancement of the acoustic mode vanishes, whereas the optical mode acquires a significant Gilbert damping enhancement, comparable to that of a system attached to a perfect spin sink. The dynamic coupling is reduced for short-wavelength spin waves, and there is no synchronization. For intermediate wavelengths, the coupling can be increased by the dipolar field such that the modes in the two ferromagnetic insulators can couple despite possible small frequency asymmetries. The surface waves induced by an easy-axis surface anisotropy exhibit much greater Gilbert damping enhancement. These modes also may acoustically or optically couple, but they are unaffected by thickness asymmetries., Comment: 13 pages, 5 figures

Published
2014
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130. Current-induced magnetization dynamics in two magnetic insulators separated by a normal metal

Author

Skarsvåg, Hans, Bauer, Gerrit E. W., and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study the dynamics of spin valves consisting of two layers of magnetic insulators separated by a normal metal in the macrospin model. A current through the spacer generates a spin Hall current that can actuate the magnetization via the spin-transfer torque. We derive expressions for the effective Gilbert damping and the critical currents for the onset of magnetization dynamics including the effects of spin pumping that can be tested by ferromagnetic resonance experiments. The current generates an amplitude asymmetry between the in-phase and out-of-phase modes. We briefly discuss superlattices of metals and magnetic insulators., Comment: 9 pages, 5 figures

Published
2014
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131. Dynamic phase diagram of dc-pumped magnon condensates

Author

Bender, Scott A., Duine, Rembert A., Brataas, Arne, and Tserkovnyak, Yaroslav

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study the effects of nonlinear dynamics and damping by phonons on a system of interacting electronically pumped magnons in a ferromagnet. The nonlinear effects are crucial for constructing the dynamic phase diagram, which describes how "swasing" and Bose-Einstein condensation emerge out of the quasiequilibrated thermal cloud of magnons. We analyze the system in the presence of magnon damping and interactions, demonstrating the continuous onset of stable condensates as well as hysteretic transitions., Comment: 9 pages, 6 figures

Published
2014
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132. Spin pumping and spin-transfer torques in antiferromagnets

Author

Cheng, Ran, Xiao, Jiang, Niu, Qian, and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Spin pumping and spin-transfer torques are two reciprocal phenomena widely studied in ferromagnetic materials. However, pumping from antiferromagnets and its relation to current-induced torques have not been explored. By calculating how electrons scatter off a normal metal-antiferromagnetic interface, we derive pumped spin and staggered spin currents in terms of the staggered field, the magnetization, and their rates of change. For both compensated and uncompensated interfaces, spin pumping is of a similar magnitude as in ferromagnets with a direction controlled by the polarization of the driving microwave. The pumped currents are connected to current-induced torques via Onsager reciprocity relations., Comment: 5 pages, 4 figures

Published
2014
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133. Gilbert damping in noncollinear ferromagnets

Author

Yuan, Zhe, Hals, Kjetil M. D., Liu, Yi, Starikov, Anton A., Brataas, Arne, and Kelly, Paul J.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The precession and damping of a collinear magnetization displaced from its equilibrium are described by the Landau-Lifshitz-Gilbert equation. For a noncollinear magnetization, it is not known how the damping should be described. We use first-principles scattering theory to investigate the damping in one-dimensional transverse domain walls (DWs) of the important ferromagnetic alloy Ni$_{80}$Fe$_{20}$ and interpret the results in terms of phenomenological models. The damping is found to depend not only on the magnetization texture but also on the specific dynamic modes of Bloch and N\'eel DWs. Even in the highly disordered Ni$_{80}$Fe$_{20}$ alloy, the damping is found to be remarkably nonlocal., Comment: Final version accepted by Physical Review Letters

Published
2014
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135. Kubo formula for dc conductivity: Generalization to systems with spin-orbit coupling

Author

Ado, IA, Titov, M, Duine, RA, Brataas, A, Ado, IA, Titov, M, Duine, RA, and Brataas, A

Abstract

We revise the Kubo formula for the electric dc conductivity in the presence of spin-orbit coupling (SOC). We discover that each velocity operator that enters this formula differs from ∂H/∂p, where H is the Hamiltonian and p is the canonical momentum. Moreover, we find an additional contribution to the Hall dc conductivity from noncommuting coordinates that is missing in the conventional Kubo-Středa formula. This contribution originates from the "electron-positron"matrix elements of the velocity and position operators. We argue that the widely used Rashba model does in fact provide a finite anomalous Hall dc conductivity in the metallic regime (in the noncrossing approximation) if SOC-corrections to the velocity and position operators are properly taken into account. While we focus on the response of the charge current to the electric field, linear response theories of other SOC-related effects should be modified similarly.

Published
2024

136. Position operators and interband matrix elements of scalar and vector potentials in the 8-band Kane model

Author

Ado, Ivan A., Titov, M., Duine, Rembert A., Brataas, Arne, Ado, Ivan A., Titov, M., Duine, Rembert A., and Brataas, Arne

Abstract

We diagonalize the 8-band Kane Hamiltonian with a proper inclusion of the interband matrix elements of the scalar and vector potentials. This leads, among other results, to a modification of the conventional expression for the spin-orbit coupling (SOC) strength in narrow-gap semiconductors with the zinc blende symmetry. We find that in GaAs, at low temperatures, the correct expression for the SOC strength is actually twice as large as usually considered. In InSb it is 1.76 times larger. We also provide a proper treatment of the interband matrix elements of the position operator. We show that the velocity operator in a crystal should be defined as a time-derivative of a fictitious position operator rather than the physical one. We compute the expressions for both these position operators projected to the conduction band of the 8-band Kane model. We also derive an expression for the projected velocity operator and demonstrate that the SOC strength in it differs from the SOC strength in the Hamiltonian. The ratio between them is not equal to 1, as it is often assumed for the Rashba model. It does not equal 2 either. The correct result for this ratio is given by a rational function of the parameters of the model. This function takes values between 4(23 + 3p2)/73 ≈ 1.49 and 2. Our findings modify a vast number of research results obtained using the Rashba model and provide a path for consistent treatment of the latter in future applications.

Published
2024

137. The benefits of using videos for developing responsive teaching

Author

Staal Jenset, Inga, Slotte, Anna, Nilsberth, Marie, Brataas, Gøril, Blikstad-Balas, Marte, Staal Jenset, Inga, Slotte, Anna, Nilsberth, Marie, Brataas, Gøril, and Blikstad-Balas, Marte

Abstract

The final chapter of this section discusses if and how the use of video can contribute to responsive teaching. Scholars in the field have raised concerns that attention to practice-based teacher education and specific teaching practices, often in combination with the use of video, might lead to an instrumental and technical approach to teacher learning. The chapter summarizes research indicating some of the affordances of using video to teach responsively, for instance in terms of practicing noticing skills related to the responsiveness of a specific teaching event, in terms of enactment of reasoned practice and in-the-moment decision-making, or in terms of bringing about a shift in teachers’ attention—from their own teaching to their students’ learning. The chapter also highlights some of the challenges with using videos for the purpose of responsive teaching, and conditions for success. Throughout the chapter, empirical data from different Nordic contexts is used to illustrate these key points.

Published
2024
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138. The benefits of using videos for developing teachers’ professional vision

Author

Jenset, Inga S, Tengberg, Michael, Sigurðardóttir, Anna Kristin, Sigþórsson, Runar, Magnusson, Camilla G, Brataas, Göril, Jenset, Inga S, Tengberg, Michael, Sigurðardóttir, Anna Kristin, Sigþórsson, Runar, Magnusson, Camilla G, and Brataas, Göril

Abstract

The use of video is steadily highlighted as a powerful tool for teachers’ professional learning. The research literature points to a range of different advantages and purposes for using video, and this chapter summarizes research specifically indicating that the use of videos can contribute to developing in-service and pre-service teachers’ professional vision. The chapter shows how the use of video can enable a variety of perspectives on teaching, for instance by focused attention on the students’ perspective. The chapter also outlines research indicating how the use of video can enhance teacher noticing and reflective skills, and finally discusses how video can contribute to an inquiry stance necessary to develop teaching. Throughout the chapter, empirical data is shared to illustrate how teachers pre- and in-service teachers themselves experience using video as a professional tool-and how that has impacted their own professional learning. © 2024 selection and editorial matter, Marte Blikstad-Balas and Inga Staal Jenset; individual chapters, the contributors.

Published
2024
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141. Experience of Managing Countertransference Through Self-Guided Imagery in Meditation Among Healthcare Professionals

Author

Olaug Julie Aasan, Hildfrid Vikkelsmo Brataas, and Bente Nordtug

Subjects
therapeutic relationship, countertransference, meditation, positive imagery, wellbeing, self-care, Psychiatry, RC435-571
Abstract

IntroductionAs a part of the therapeutic relationship, a significant, well-established predictor of outcomes in psychiatric healthcare, healthcare professionals' emotional reactions to patients may affect treatment outcomes.AimThe aim of our study was to explore and describe healthcare professionals' experiences with managing countertransference using skills from a training program on self-guided imagery in meditation (SIM).MethodFollowing an exploratory descriptive design, we conducted qualitative interviews with 10 healthcare professionals who care for patients with mental illness and subjected the collected data to thematic content analysis.ResultsParticipants reported that SIM had helped them to manage countertransference and had prompted changes that we categorized into three themes: managing personal vulnerability, setting clearer boundaries, and practicing self-care.ConclusionThe results suggest that by cultivating wellbeing and dealing with unresolved inner conflicts, SIM can help healthcare professionals to manage countertransference.

Published
2022
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142. Antiferromagnetic Domain Wall Motion Induced by Spin Waves

Author

Tveten, Erlend Grytli, Qaiumzadeh, Alireza, and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Spin waves in antiferromagnets are linearly or circularly polarized. Depending on the polarization, traversing spin waves alter the staggered field in a qualitatively different way. We calculate the drift velocity of a moving domain wall as a result of spin wave mediated forces, and show that the domain wall moves in opposite directions for linearly and circularly polarized waves. The analytical results agree with a micromagnetics simulation of an antiferromagnetic domain wall driven by a localized and alternating magnetic field., Comment: 4 pages, 3 figures

Published
2013
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143. Spin-Orbit Torques and Anisotropic Magnetization Damping in Skyrmion Crystals

Author

Hals, Kjetil M. D. and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

The length scale of the magnetization gradients in chiral magnets is determined by the relativistic Dzyaloshinskii-Moriya interaction. Thus, even conventional spin-transfer torques are controlled by the relativistic spin-orbit coupling in these systems, and additional relativistic corrections to the current-induced torques and magnetization damping become important for a complete understanding of the current-driven magnetization dynamics. We theoretically study the effects of reactive and dissipative homogeneous spin-orbit torques and anisotropic damping on the current-driven skyrmion dynamics in cubic chiral magnets. Our results demonstrate that spin-orbit torques play a significant role in the current-induced skyrmion velocity. The dissipative spin-orbit torque generates a relativistic Magnus force on the skyrmions, whereas the reactive spin-orbit torque yields a correction to both the drift velocity along the current direction and the transverse velocity associated with the Magnus force. The spin-orbit torque corrections to the velocity scale linearly with the skyrmion size, which is inversely proportional to the spin-orbit coupling. Consequently, the reactive spin-orbit torque correction can be the same order of magnitude as the non-relativistic contribution. More importantly, the dissipative spin-orbit torque can be the dominant force that causes a deflected motion of the skyrmions if the torque exhibits a linear or quadratic relationship with the spin-orbit coupling. In addition, we demonstrate that the skyrmion velocity is determined by anisotropic magnetization damping parameters governed by the skyrmion size., Comment: 7 pages

Published
2013
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144. Self-Quenching of Nuclear Spin Dynamics in Central Spin Problem

Author

Brataas, Arne and Rashba, Emmanuel I.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We consider, in the framework of the central spin $s=1/2$ model, driven dynamics of two electrons in a double quantum dot subject to hyperfine interaction with nuclear spins and spin-orbit coupling. The nuclear subsystem dynamically evolves in response to Landau-Zener singlet-triplet transitions of the electronic subsystem controlled by external gate voltages. Without noise and spin-orbit coupling, subsequent Landau-Zener transitions die out after about $10^4$ sweeps, the system self-quenches, and nuclear spins reach one of the numerous glassy dark states. We present an analytical model that captures this phenomenon. We also account for the multi-nuclear-specie content of the dots and numerically determine the evolution of around $10^7$ nuclear spins in up to $2\times10^5$ Landau-Zener transitions. Without spin-orbit coupling, self-quenching is robust and sets in for arbitrary ratios of the nuclear spin precession times and the waiting time between Landau-Zener sweeps as well as under moderate noise. In presence of spin-orbit coupling of a moderate magnitude, and when the waiting time is in resonance with the precession time of one of the nuclear species, the dynamical evolution of nuclear polarization results in stroboscopic screening of spin-orbit coupling. However, small deviations from the resonance or strong spin-orbit coupling destroy this screening. We suggest that the success of the feedback loop technique for building nuclear gradients is based on the effect of spin-orbit coupling., Comment: 13 pages, 9 figures

Published
2013
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145. Phenomenology of Current-Induced Spin-Orbit Torques

Author

Hals, Kjetil M. D. and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Currents induce magnetization torques via spin-transfer when the spin angular momentum is conserved or via relativistic spin-orbit coupling. Beyond simple models, the relationship between material properties and spin-orbit torques is not known. Here, we present a novel phenomenology of current-induced torques that is valid for any strength of intrinsic spin-orbit coupling. In $\rm Pt|Co|AlO_x$, we demonstrate that the domain walls move in response to a novel relativistic dissipative torque that is dependent on the domain wall structure and that can be controlled via the Dzyaloshinskii-Moriya interaction. Unlike the non-relativistic spin-transfer torque, the new torque can, together with the spin-Hall effect in the Pt-layer, move domain walls by means of electric currents parallel to the walls., Comment: Final version accepted by Physical Review B

Published
2013
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146. Nonlinear Magneto-Optical and Magnetoelectric Phenomena in Topological Insulator Heterostructures

Author

Mal'shukov, A. G., Skarsvag, Hans, and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Three-dimensional topological insulator films in contact with magnetic layers exhibit intriguing magneto-optical and magnetoelectric phenomena, but little is known beyond the linear response regime. We demonstrate that the presence of two electric fields parallel to the surface of the film induces a perpendicular AC polarization, whereas a static polarization can be induced by applying a single circularly polarized electromagnetic wave. These phenomena are determined by the second-order susceptibility, which also controls the manner in which the anomalous Hall current is modulated by a perpendicular AC electric field. If the modulation frequency is low, the Hall effect is topologically protected and the nonlinear response vanishes., Comment: 5 pages

Published
2013
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147. Spin-Transfer Torques in Helimagnets

Author

Hals, Kjetil M. D. and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We theoretically investigate current-induced magnetization dynamics in chiral-lattice helimagnets. Spin-orbit coupling in non-centrosymmetric crystals induces a reactive spin-transfer torque that has not been previously considered. We demonstrate how the torque is governed by the crystal symmetry and acts as an effective magnetic field along the current direction in cubic B20-type crystals. The effects of the new torque are computed for current-induced dynamics of spin-spirals and the Doppler shift of spin waves. In current-induced spin-spiral motion, the new torque tilts the spiral structure. The spin waves of the spiral structure are initially displaced by the new torque, while the dispersion relation is unaffected., Comment: Final version accepted by Physical Review B

Published
2013
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148. Spin-pumping and Enhanced Gilbert Damping in Thin Magnetic Insulator Films

Author

Kapelrud, André and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Precessing magnetization in a thin film magnetic insulator pumps spins into adjacent metals; however, this phenomenon is not quantitatively understood. We present a theory for the dependence of spin-pumping on the transverse mode number and in-plane wave vector. For long-wavelength spin waves, the enhanced Gilbert damping for the transverse mode volume waves is twice that of the macrospin mode, and for surface modes, the enhancement can be ten or more times stronger. Spin-pumping is negligible for short-wavelength exchange spin waves. We corroborate our analytical theory with numerical calculations in agreement with recent experimental results.

Published
2013
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149. Manipulation of Ferromagnets via the Spin-Selective Optical Stark Effect

Author

Qaiumzadeh, Alireza, Bauer, Gerrit E. W., and Brataas, Arne

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We investigate the non-resonant all-optical switching of magnetization. We treat the inverse Faraday effect (IFE) theoretically in terms of the spin-selective optical Stark effect for linearly or circularly polarized light. In the dilute magnetic semiconductors (Ga,Mn)As, strong laser pulses below the band gap induce effective magnetic fields of several teslas in a direction which depends on the magnetization and light wave vectors. Our theory demonstrates that the polarized light catalyzes the angular momentum transfer between lattice and the magnetization., Comment: 5 pages, 2 figures

Published
2013
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