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1. Ultrafast unidirectional spin Hall magnetoresistance driven by terahertz light field

Author

Salikhov, Ruslan, Ilyakov, Igor, Reinold, Anneke, Deinert, Jan-Christoph, de Oliveira, Thales, Ponomaryov, Alexey, Prajapati, Gulloo Lal, Pilch, Patrick, Ghalgaoui, Ahmed, Koch, Max, Fassbender, Jürgen, Lindner, Jürgen, Wang, Zhe, and Kovalev, Sergey

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The ultrafast control of magnetisation states in magnetically ordered systems is a key technological challenge for developing memory devices operable at picosecond timescales or terahertz (THz) frequencies. Despite significant efforts in ultrafast magnetic switching, convenient ultrafast readout of magnetic states remains under investigation. Currently, many experiments exploit magneto-optical effects for detecting magnetisation states, necessitating laser sources and optical components. However, energy-efficient and cost-effective electrical detection is preferred for practical applications. Unidirectional spin-Hall magnetoresistance (USMR) was proposed as a simple two-terminal geometry for the electrical detection of the magnetisation state in magnetic heterostructures. Here, we demonstrate that USMR is active at THz frequencies for picosecond time readouts, and can be initiated with light fields. We detect ultrafast USMR in various types of ferromagnet/heavy metal thin film heterostructures through THz second harmonic generation. Our studies, combined with temperature-dependent measurements of USMR, reveal a significant contribution from electron-magnon spin-flip scattering. This suggests possibilities for all-electrical detection of THz magnon modes., Comment: 20 pages, 5 figures

Published
2024

2. Spin-orbit interaction driven terahertz nonlinear dynamics in transition metals

Author

Salikhov, Ruslan, Lysne, Markus, Werner, Philipp, Ilyakov, Igor, Schüler, Michael, de Oliveira, Thales V. A. G., Ponomaryov, Alexey, Arshad, Atiqa, Prajapati, Gulloo Lal, Deinert, Jan-Christoph, Makushko, Pavlo, Makarov, Denys, Cowan, Thomas, Fassbender, Jürgen, Lindner, Jürgen, Lindner, Aleksandra, Ortix, Carmine, and Kovalev, Sergey

Subjects
Physics - Applied Physics, Condensed Matter - Materials Science
Abstract

The interplay of electric charge, spin, and orbital polarizations, coherently driven by picosecond long oscillations of light fields in spin-orbit coupled systems, is the foundation of emerging terahertz spintronics and orbitronics. The essential rules for how terahertz light interacts with these systems in a nonlinear way are still not understood. In this work, we demonstrate a universally applicable electronic nonlinearity originating from spin-orbit interactions in conducting materials, wherein the interplay of light-induced spin and orbital textures manifests. We utilized terahertz harmonic generation spectroscopy to investigate the nonlinear dynamics over picosecond timescales in various transition metal films. We found that the terahertz harmonic generation efficiency scales with the spin Hall conductivity in the studied films, while the phase takes two possible values (shifted by {\pi}), depending on the d-shell filling. These findings elucidate the fundamental mechanisms governing non-equilibrium spin and orbital polarization dynamics at terahertz frequencies, which is relevant for potential applications of terahertz spin- and orbital-based devices., Comment: 11 pages, 4 figures

Published
2023

3. Multilayer metamaterials with mixed ferromagnetic domain core and antiferromagnetic domain wall structure

Author

Salikhov, Ruslan, Samad, Fabian, Schneider, Sebastian, Pohl, Darius, Rellinghaus, Bernd, Böhm, Benny, Ehrler, Rico, Lindner, Jürgen, Kiselev, Nikolai S., and Hellwig, Olav

Subjects
Condensed Matter - Materials Science
Abstract

Magnetic nano-objects possess great potential for more efficient data processing, storage and neuromorphic type of applications. Using high perpendicular magnetic anisotropy synthetic antiferromagnets in the form of multilayer-based metamaterials we purposely reduce the antiferromagnetic (AF) interlayer exchange energy below the out-of-plane demagnetization energy, which controls the magnetic domain formation. As we show via macroscopic magnetometry as well as microscopic Lorentz transmission electron microscopy, in this unusual magnetic energy regime, it becomes possible to stabilize nanometer scale stripe and bubble textures consisting of ferromagnetic (FM) out-of-plane domain cores separated by AF in-plane Bloch-type domain walls. This unique coexistence of mixed FM/AF order on the nanometer scale opens so far unexplored perspectives in the architecture of magnetic domain landscapes as well as the design and functionality of individual magnetic textures, such as bubble domains with alternating chirality., Comment: 13 pages, 4 main figures and 4 Extended Data (supplementary) figures, 50 references

Published
2023

4. Influence of Large Magnetic Field Gradients at the Electrochemical Interface

Author

Kurian, Jinu, Dunne, Peter, Vivier, Vincent, Atcheson, Gwenaël, Salikhov, Ruslan, Fowley, Ciaran, Venkatesan, Munuswamy, Hellwig, Olav, Coey, Michael, Doudin, Bernard, Lee, Young Pak, Series Editor, Lockwood, David J., Series Editor, Ossi, Paolo M., Series Editor, Yamanouchi, Kaoru, Series Editor, Doudin, Bernard, editor, Coey, Michael, editor, and Cēbers, Andrejs, editor

Published
2024
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5. Control and tunability of magnetic bubble states in multilayers with strong perpendicular magnetic anisotropy at ambient conditions

Author

Salikhov, Ruslan, Samad, Fabian, Arekapudi, Sri Sai Phani Kanth, Lindner, Jürgen, Kiselev, Nikolai S., and Hellwig, Olav

Subjects
Condensed Matter - Materials Science
Abstract

The reversal of magnetic bubble helicity through topologically trivial transient states provides an additional degree of freedom that promises the development of multidimensional magnetic memories. A key requirement for this concept is the stabilization of bubble states at ambient conditions on application-compatible substrates. In the present work we demonstrate a stabilization routine for remanent bubble states in high perpendicular magnetic anisotropy [(Co(0.44\,nm)/Pt(0.7\,nm)]$_X$, X = 48, 100, 150 multilayers on Si/SiO$_2$ substrates by exploring the effect of external magnetic fields ($H_\mathrm{m}$) of different strength and angles ($\theta$) with respect to the film surface normal. By systematic variation of these two parameters, we demonstrate that remanent bubble density and mean bubble diameter can be carefully tuned and optimized for each sample. Our protocol based on magnetometry only reveals the densest remanent bubble states at $H_\mathrm{m} = 0.87 H_\mathrm{s}$ ($H_\mathrm{s}$ is the magnetic saturation field) and $\theta=60^\circ - 75^\circ$ for all $X$ with a maximum of 3736 domains/100 $\mu$m$^2$ for the X = 48 sample. The experimental observations are supported by micromagnetic simulations taking into account the nanoscale lateral grain structure of multilayers synthesized by magnetron sputter deposition, and thus helping understand the different density of the bubble states found in these systems., Comment: Regular Article: 10 pages, 6 figures, 1 table

Published
2022
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7. Control of stripe domain wall magnetization in perpendicular anisotropy multilayers

Author

Salikhov, Ruslan, Samad, Fabian, Böhm, Benny, Schneider, Sebastian, Pohl, Darius, Rellinghaus, Bernd, Ullrich, Aladin, Albrecht, Manfred, Lindner, Jürgen, Kiselev, Nikolai S., and Hellwig, Olav

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

We report on the controlled switching of domain wall (DW) magnetization in aligned stripe domain structures, stabilized in [Co (0.44 nm)/Pt (0.7 nm)]$_X$ ($X = 48$, 100, 150) multilayers with perpendicular magnetic anisotropy. The switching process, induced by an external magnetic field, is monitored by measuring the evolution of the in-plane magnetization. % We show that the remanent in-plane magnetization originates from the polarization of the Bloch-type DWs. With micromagnetic simulations, we reveal that the reversal of the DW polarization is the result of the emergence and collapse of horizontal Bloch lines within the DWs at particular strengths of the external magnetic field, applied opposite to the DW polarization. Our findings are relevant for DW-based magnonics and bubble skyrmion applications in magnetic multilayers., Comment: 11 pages, 6 figures

Published
2021
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9. Micromagnetic Simulations for Coercivity Improvement through Nano-Structuring of Rare-Earth Free L1$_0$-FeNi Magnets

Author

Kovacs, Alexander, Fischbacher, Johann, Oezelt, Harald, Schrefl, Thomas, Kaidatzis, Andreas, Salikhov, Ruslan, Farle, Michael, Giannopoulos, George, and Niarchos, Dimitris

Subjects
Physics - Computational Physics, Condensed Matter - Materials Science
Abstract

In this work we investigate the potential of tetragonal L1$_0$ ordered FeNi as candidate phase for rare earth free permanent magnets taking into account anisotropy values from recently synthesized, partially ordered FeNi thin films. In particular, we estimate the maximum energy product ($BH$)$_\mathrm{max}$ of L1$_0$-FeNi nanostructures using micromagnetic simulations. The maximum energy product is limited due to the small coercive field of partially ordered L1$_0$-FeNi. Nano-structured magnets consisting of 128 equi-axed, platelet-like and columnar-shaped grains show a theoretical maximum energy product of 228 kJ/m$^3$, 208 kJ/m$^3$, 252 kJ/m$^3$, respectively.

Published
2017
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11. Specific Heat of Spin Excitations Measured by FerromagneticResonance

Author

Zingsem, Benjamin W., Winklhofer, Michael, Masur, Sabrina, Wendtland, Paul, Salikhov, Ruslan, Meckenstock, Ralf, and Farle, Michael

Subjects
Condensed Matter - Materials Science, 82D40, J.2
Abstract

Using ferromagnetic-resonance spectroscopy (FMR), we investigate the anisotropic properties of epitaxial 3 nmPt/2 nmAg/10 nmFe/10 nmAg/GaAs(001) films in fully saturated meta-stable states at temperatures ranging from 70 K to 280 K. By comparison to spin-wave theory calculations, we identify the role of thermal fluctuation of magnons in overcoming the energy barrier associated with these meta-stable states. We show that the energy associated with the size of the barrier that bounds the meta-stable regime is proportional to the heat stored in the magnonic bath. Our findings offer the possibility to measure the magnonic contribution to the heat capacity by FMR, independent of other contributions at temperatures ranging from 0 K to ambient temperature and above. The only requirement being that the selected sample exhibits magnetic anisotropy, here, magnetocrystalline anisotropy.

Published
2016

12. Enhanced and Tunable Spin-Orbit Coupling in Tetragonally Strained Fe-Co-B Films

Author

Salikhov, Ruslan, Reichel, Ludwig, Zingsem, Benjamin, Römer, Florian M., Abrudan, Radu-Marius, Rusz, Jan, Eriksson, Olle, Schultz, Ludwig, Fähler, Sebastian, Farle, Michael, and Wiedwald, Ulf

Subjects
Condensed Matter - Materials Science
Abstract

We have synthesized 20 nm thick films of tetragonally strained interstitial Fe-Co-B alloys epitaxially grown on Au55Cu45 buffer layer. The strained axis is perpendicular to the film plane and the corresponding lattice constant c is enlarged with respect to the in-plane lattice parameter a. By adding the interstitial boron with different concentrations 0, 4, and 10 at.% we were able to stabilize the tetragonal strain in 20 nm Fe-Co films with different c/a ratios of 1.013, 1.034 and 1.02, respectively. Using ferromagnetic resonance (FMR) and x-ray magnetic circular dichroism (XMCD) we found that the orbital magnetic moment increases with increasing the c/a ratio, pointing towards the enhancement of spin-orbit coupling (SOC) at larger strain. Our results show that careful doping of ferromagnetic films allows to control the SOC by stabilizing anisotropic strain states. These findings are applicable in material design for spintronics applications. We also discuss the influence of B doping on the Fe-Co film microstructure, its magnetic properties and magnetic relaxation., Comment: 14 pages, 4 figures

Published
2015
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16. Terahertz Harmonic Generation from Graphite Pencil Drawings

Author

Arshad, Atiqa, primary, Koyun, Hatice Nur, additional, Salikhov, Ruslan, additional, Gensch, Michael, additional, Ilyakov, Igor, additional, Ponomaryov, Alexey, additional, Prajapati, Gulloo Lal, additional, de Oliveira, Thales V. A. G., additional, Mavridou, Kalliopi, additional, Lindner, Jürgen, additional, Deinert, Jan-Christoph, additional, Ünlü, Cumhur Gökhan, additional, and Kovalev, Sergey, additional

Published
2023
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18. Spin-orbit torque mediated coupling of terahertz light with nanometer-wavelength magnon modes

Author

Salikhov, Ruslan, primary, Ilyakov, Igor, additional, Körber, Lukas, additional, Kakay, Attila, additional, Gallardo, Rodolfo, additional, Ponomaryov, Alexey, additional, Deinert, Jan-Christoph, additional, Oliveira, Thales, additional, Lenz, Kilian, additional, Fassbender, Jürgen, additional, Bonetti, Stefano, additional, Hellwig, Olav, additional, Lindner, Jürgen, additional, and Kovalev, Sergey, additional

Published
2022
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19. Magnetic phase diagram of (Mo2/3RE1/3)(2)AlC, RE = Tb and Dy, studied by magnetization, specific heat, and neutron diffraction analysis

Author

Tao, Quanzheng, Barbier, Maxime, Mockuté, Aurelija, Ritter, Clemens, Salikhov, Ruslan, Wiedwald, Ulf, Calder, Stuart, Opagiste, Christine, Galera, Rose-Marie, Farle, Michael, Ouisse, Thierry, Rosén, Johanna, Tao, Quanzheng, Barbier, Maxime, Mockuté, Aurelija, Ritter, Clemens, Salikhov, Ruslan, Wiedwald, Ulf, Calder, Stuart, Opagiste, Christine, Galera, Rose-Marie, Farle, Michael, Ouisse, Thierry, and Rosén, Johanna

Abstract

We report the results of magnetization, heat capacity, and neutron diffraction measurements on (Mo2/3RE1/3)(2)AlC with RE = Dy and Tb. Temperature and field-dependent magnetization as well as heat capacity were measured on a powder sample and on a single crystal allowing the construction of the magnetic field-temperature phase diagram. To study the magnetic structure of each magnetic phase, we applied neutron diffraction in a magnetic field up to 6 T. For (Mo2/3Dy1/3)(2)AlC in zero field, a spin density wave is stabilized at 16 K, with antiferromagnetic ordering at 13 K. Furthermore, we identify the coexistence of ferromagnetic and antiferromagnetic phases induced by magnetic fields for both RE = Tb and Dy. The origin of the field induced phases is resulting from the competing ferromagnetic and antiferromagnetic interactions., Funding Agencies|Knut and AliceWallenberg (KAW) FoundationKnut & Alice Wallenberg Foundation [KAW 2020.0033]; Deutsche Forschungsgemeinschaft (DFG)German Research Foundation (DFG) [CRC/TRR 270, 405553726]; ANR projectFrench National Research Agency (ANR) [ANR-18-CE09-0041]; government of the Russian Federation [075-15-2019-1886]; Flag-ERA JTC 2017

Published
2022
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20. Magnetic phase diagram of (Mo2/3RE1/3)2AlC, RE = Tb and Dy, studied by magnetization, specific heat, and neutron diffraction analysis

Author

Tao, Quanzheng, primary, Barbier, Maxime, additional, Mockute, Aurelija, additional, Ritter, Clemens, additional, Salikhov, Ruslan, additional, Wiedwald, Ulf, additional, Calder, Stuart, additional, Opagiste, Christine, additional, Galera, Rose-Marie, additional, Farle, Michael, additional, Ouisse, Thierry, additional, and Rosen, Johanna, additional

Published
2022
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21. Magnetic phase diagram of (Mo₂/₃RE₁/₃)₂AlC, RE=Tb and Dy, studied by magnetization, specific heat, and neutron diffraction analysis

Author

Tao, Quanzheng, Barbier, Maxime, Mockute, Aurelija, Ritter, Clemens, Salikhov, Ruslan, Wiedwald, Ulf, Calder, Stuart, Opagiste, Christine, Galera, Rose-Marie, Farle, Michael, Ouisse, Thierry, and Rosen, Johanna

Subjects
Condensed Matter::Strongly Correlated Electrons, Physik (inkl. Astronomie)
Abstract

We report the results of magnetization, heat capacity, and neutron diffraction measurements on (Mo2/3RE1/3)2AlC with RE = Dy and Tb. Temperature and field-dependent magnetization as well as heat capacity were measured on a powder sample and on a single crystal allowing the construction of the magnetic field-temperature phase diagram. To study the magnetic structure of each magnetic phase, we applied neutron diffraction in a magnetic field up to 6 T. For (Mo2/3Dy1/3)2AlC in zero field, a spin density wave is stabilized at 16 K, with antiferromagnetic ordering at 13 K. Furthermore, we identify the coexistence of ferromagnetic and antiferromagnetic phases induced by magnetic fields for both RE = Tb and Dy. The origin of the field induced phases is resulting from the competing ferromagnetic and antiferromagnetic interactions.

Published
2022

25. Visualizing Magnetic Structure in 3D Nanoscale Ni-Fe Gyroid Networks

Author

Llandro, Justin, Love, David M, Kovács, András, Caron, Jan, Vyas, Kunal N, Kákay, Attila, Salikhov, Ruslan, Lenz, Kilian, Fassbender, Jürgen, Scherer, Maik RJ, Cimorra, Christian, Steiner, Ullrich, Barnes, Crispin HW, Dunin-Borkowski, Rafal E, Fukami, Shunsuke, Ohno, Hideo, Llandro, Justin [0000-0002-1362-6083], Kákay, Attila [0000-0002-3195-219X], Steiner, Ullrich [0000-0001-5936-339X], and Apollo - University of Cambridge Repository

Subjects
transmission electron microscopy, off-axis electron holography, gyroids, magnetic metamaterials
Abstract

Arrays of interacting 2D nanomagnets display unprecedented electromagnetic properties via collective effects, demonstrated in artificial spin ices and magnonic crystals. Progress toward 3D magnetic metamaterials is hampered by two challenges: fabricating 3D structures near intrinsic magnetic length scales (sub-100 nm) and visualizing their magnetic configurations. Here, we fabricate and measure nanoscale magnetic gyroids, periodic chiral networks comprising nanowire-like struts forming three-connected vertices. Via block copolymer templating, we produce Ni75Fe25 single-gyroid and double-gyroid (an inversion pair of single-gyroids) nanostructures with a 42 nm unit cell and 11 nm diameter struts, comparable to the exchange length in Ni-Fe. We visualize their magnetization distributions via off-axis electron holography with nanometer spatial resolution and interpret the patterns using finite-element micromagnetic simulations. Our results suggest an intricate, frustrated remanent state which is ferromagnetic but without a unique equilibrium configuration, opening new possibilities for collective phenomena in magnetism, including 3D magnonic crystals and unconventional computing.

Published
2020
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28. Visualizing Magnetic Structure in 3D Nanoscale Ni–Fe Gyroid Networks

Author

Llandro, Justin, primary, Love, David M., additional, Kovács, András, additional, Caron, Jan, additional, Vyas, Kunal N., additional, Kákay, Attila, additional, Salikhov, Ruslan, additional, Lenz, Kilian, additional, Fassbender, Jürgen, additional, Scherer, Maik R. J., additional, Cimorra, Christian, additional, Steiner, Ullrich, additional, Barnes, Crispin H. W., additional, Dunin-Borkowski, Rafal E., additional, Fukami, Shunsuke, additional, and Ohno, Hideo, additional

Published
2020
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33. Long-term stability and thickness dependence of magnetism in thin (Cr0.5Mn0.5)(2)GaC MAX phase films

Author

Novoselova, Iuliia P., Petruhins, Andrejs, Wiedwald, Ulf, Weller, Dieter, Rosén, Johanna, Farle, Michael, and Salikhov, Ruslan

Subjects
Oorganisk kemi, Magnetic MAX phases, Physik (inkl. Astronomie), surface anisotropy, Inorganic Chemistry, Condensed Matter::Materials Science, Forschungszentren » Center for Nanointegration Duisburg-Essen (CENIDE), thin films, ferromagnetic resonance, ddc:53, lcsh:TA401-492, lcsh:Materials of engineering and construction. Mechanics of materials, ddc:530, Fakultät für Physik » Experimentalphysik
Abstract

The thickness dependence and long-term stability of the magnetic properties of epitaxial (Cr ₀.₅ Mn ₀.₅ ) ₂ GaC MAX phase films on MgO (111) were investigated. For 12.5- to 156-nm-thick films, which corresponds to 10–125 c-axis unit cells, samples were found to be phase pure with negligible c-axis lattice strain of less than 10 −⁴ nm even for the thinnest films. No influence of the interface layers on the magnetic anisotropy, the magnetization or the para- to ferromagnetic phase transition was observed. All samples remained stable for more than one year in ambient conditions. OA Förderung 2019

Published
2019

34. Long-term stability and thickness dependence of magnetism in thin (Cr0.5Mn0.5)2GaC MAX phase films

Author

Iuliia P. Novoselova, Petruhins, Andrejs, Wiedwald, Ulf, Weller, Dieter, Rosen, Johanna, Farle, Michael, and Salikhov, Ruslan

Abstract

The thickness dependence and long-term stability of the magnetic properties of epitaxial (Cr0.5Mn0.5)2GaC MAX phase films on MgO (111) were investigated. For 12.5- to 156-nm-thick films, which corresponds to 10–125 c-axis unit cells, samples were found to be phase pure with negligible c-axis lattice strain of less than 10−4 nm even for the thinnest films. No influence of the interface layers on the magnetic anisotropy, the magnetization or the para- to ferromagnetic phase transition was observed. All samples remained stable for more than one year in ambient conditions. The complex temperature- and magnetic field-dependent magnetism of electrically conducting (Cr0.5Mn0.5)2GaC MAX phase films is environmentally robust over one year and independent on interface effects.

Published
2019
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35. Atomically Layered and Ordered Rare-Earth i-MAX Phases : A New Class of Magnetic Quaternary Compounds

Author

Tao, Quanzheng, Lu, Jun, Dahlqvist, Martin, Mockute, Aurelija, Calder, Stuart, Petruhins, Andrejs, Meshkian, Rahele, Rivin, Oleg, Potashnikov, Daniel, Caspi, El'ad N., Shaked, Hagai, Hoser, Andreas, Opagiste, Christine, Galera, Rose-Marie, Salikhov, Ruslan, Wiedwald, Ulf, Ritter, Clemens, Wildes, Andrew R., Johansson, Börje, Hultman, Lars, Fade, Michael, Barsoum, Michel W., Rosen, Johanna, Tao, Quanzheng, Lu, Jun, Dahlqvist, Martin, Mockute, Aurelija, Calder, Stuart, Petruhins, Andrejs, Meshkian, Rahele, Rivin, Oleg, Potashnikov, Daniel, Caspi, El'ad N., Shaked, Hagai, Hoser, Andreas, Opagiste, Christine, Galera, Rose-Marie, Salikhov, Ruslan, Wiedwald, Ulf, Ritter, Clemens, Wildes, Andrew R., Johansson, Börje, Hultman, Lars, Fade, Michael, Barsoum, Michel W., and Rosen, Johanna

Abstract

In 2017, we discovered quaternary i-MAX phases atomically layered solids, where M is an early transition metal, A is an A group element, and X is C—with a (M12/3M21/3)2AC chemistry, where the M1 and M2 atoms are in-plane ordered. Herein, we report the discovery of a class of magnetic i-MAX phases in which bilayers of a quasi-2D magnetic frustrated triangular lattice overlay a Mo honeycomb arrangement and an Al Kagome lattice. The chemistry of this family is (Mo2/3RE1/3)2AlC, and the rare-earth, RE, elements are Ce, Pr, Nd, Sm, Gd, Tb, Dy, Ho, Er, Tm, and Lu. The magnetic properties were characterized and found to display a plethora of ground states, resulting from an interplay of competing magnetic interactions in the presence of magnetocrystalline anisotropy.

Published
2019
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36. Large uniaxial magnetostriction with sign inversion at the first order phase transition in the nanolaminated Mn2GaC MAX phase

Author

Novoselova, Iuliia P., Petruhins, Andrejs, Wiedwald, Ulf, Ingason, Árni Sigurdur, Hase, Thomas, Magnus, Fridrik, Kapaklis, Vassilios, Palisaitis, Justinas, Spasova, Marina, Farle, Michael, Rosen, Johanna, Salikhov, Ruslan, Raunvísindastofnun (HÍ), Science Institute (UI), Verkfræði- og náttúruvísindasvið (HÍ), School of Engineering and Natural Sciences (UI), Háskóli Íslands, and University of Iceland

Subjects
ddc:538, Rafeindafræði, Electronic properties and materials, lcsh:R, lcsh:Medicine, Physik (inkl. Astronomie), Condensed Matter Physics, Article, Condensed Matter::Materials Science, Forschungszentren » Center for Nanointegration Duisburg-Essen (CENIDE), Phase transitions and critical phenomena, Magnetic properties and materials, Physical Sciences, Fysik, ddc:530, Fakultät für Physik » Experimentalphysik, lcsh:Q, Condensed Matter::Strongly Correlated Electrons, Segulmagn, lcsh:Science, Den kondenserade materiens fysik, Eðlisfræði
Abstract

In 2013, a new class of inherently nanolaminated magnetic materials, the so called magnetic MAX phases, was discovered. Following predictive material stability calculations, the hexagonal Mn2GaC compound was synthesized as hetero-epitaxial films containing Mn as the exclusive M-element. Recent theoretical and experimental studies suggested a high magnetic ordering temperature and non-collinear antiferromagnetic (AFM) spin states as a result of competitive ferromagnetic and antiferromagnetic exchange interactions. In order to assess the potential for practical applications of Mn2GaC, we have studied the temperature-dependent magnetization, and the magnetoresistive, magnetostrictive as well as magnetocaloric properties of the compound. The material exhibits two magnetic phase transitions. The Néel temperature is T N ~ 507 K, at which the system changes from a collinear AFM state to the paramagnetic state. At T t = 214 K the material undergoes a first order magnetic phase transition from AFM at higher temperature to a non-collinear AFM spin structure. Both states show large uniaxial c-axis magnetostriction of 450 ppm. Remarkably, the magnetostriction changes sign, being compressive (negative) above T t and tensile (positive) below the T t . The sign change of the magnetostriction is accompanied by a sign change in the magnetoresistance indicating a coupling among the spin, lattice and electrical transport properties., We acknowledge Mehmet Acet and Franziska Scheibel for discussions. R.S. acknowledges funding by the Deutsche Forschungsgemeinschaft (DFG) under Grant No. SA 3095/2-1. J.R. acknowledges support from the Swedish Research Council (642-2013-8020), the Swedish Foundation for Strategic Research (SSF) through the Synergy Grant FUNCASE, and from the Knut and Alice Wallenberg (KAW) Foundation for a Fellowship Grant and Project funding (KAW 2015.0043). U.W. gratefully acknowledges the financial support of the Ministry of Education and Science of the Russian Federation in the framework of Increase Competitiveness Program of NUST «MISiS» №K3-2017-022. I. P.N. acknowledges DAAD Scholarship “Research Grants – Doctoral Programmes in Germany 2016/17” 57214224. XMaS, BM28 is a mid-range facility supported by UK Engineering and Physical science research council (EPSRC) and we are grateful to all the beam line team staff for their support.

Published
2018

37. Magnetic properties and structural characterization of layered (Cr0.5Mn0.5)(2)AuC synthesized by thermally induced substitutional reaction in (Cr0.5Mn0.5)(2)GaC

Author

Lai, Chung-Chuan, Tao, Quanzheng, Fashandi, Hossein, Wiedwald, Ulf, Salikhov, Ruslan, Farle, Michael, Petruhins, Andrejs, Lu, Jun, Hultman, Lars, Eklund, Per, and Rosen, Johanna

Subjects
lcsh:Biotechnology, lcsh:TP248.13-248.65, Physik (inkl. Astronomie), Condensed Matter Physics, Den kondenserade materiens fysik, lcsh:Physics, lcsh:QC1-999
Abstract

The magnetic properties of the new phase (Cr0.5Mn0.5)(2)AuC are compared to the known MAX-phase (Cr0.5Mn0.5)(2)GaC, where the former was synthesized by thermally induced substitution reaction of Au for Ga in (Cr0.5Mn0.5)(2)GaC. The reaction introduced a lattice expansion of similar to 3% along the c-axis, an enhancement of the coercive field from 30 mT to 140 mT, and a reduction of the Curie temperature and the saturation magnetization. Still, (Cr0.5Mn0.5)(2)AuC displays similar features in the magnetic field-and temperature-dependent magnetization curves as previously reported magnetic MAX phases, e.g., (Cr0.5Mn0.5)(2)GaC and (Mo0.5Mn0.5)(2)GaC. Thework suggests a pathway for tuning the magnetic properties of MAX phases. (c) 2018 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license. Funding Agencies|Swedish Foundation for Strategic Research (Stiftelsen for Strategisk Forskning, SSF) through the Synergy Grant FUNCASE; Knut and Alice Wallenberg (KAW) Foundation [KAW 2015.0043]; Ministry of Education and Science of the Russian Federation [K3-2017-022]; Swedish Research Council (Vetenskapsradet, VR) [621-2012-4425, 642-2013-8020, 2017-03909]; Swedish Government Strategic Research Area (SFO) in Materials Science on Advanced Functional Material (MatLiU AFM) [2009-00971]; DFG [SA 3095/2-1]

Published
2018

41. Atomically Layered and Ordered Rare-Earth i-MAX Phases: A New Class of Magnetic Quaternary Compounds

Author

Tao, Quanzheng, primary, Lu, Jun, additional, Dahlqvist, Martin, additional, Mockute, Aurelija, additional, Calder, Stuart, additional, Petruhins, Andrejs, additional, Meshkian, Rahele, additional, Rivin, Oleg, additional, Potashnikov, Daniel, additional, Caspi, El’ad N., additional, Shaked, Hagai, additional, Hoser, Andreas, additional, Opagiste, Christine, additional, Galera, Rose-Marie, additional, Salikhov, Ruslan, additional, Wiedwald, Ulf, additional, Ritter, Clemens, additional, Wildes, Andrew R., additional, Johansson, Börje, additional, Hultman, Lars, additional, Farle, Michael, additional, Barsoum, Michel W., additional, and Rosen, Johanna, additional

Published
2019
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43. Magnetic properties and structural characterization of layered (Cr0.5Mn0.5)2AuC synthesized by thermally induced substitutional reaction in (Cr0.5Mn0.5)2GaC

Author

Lai, Chung-Chuan, primary, Tao, Quanzheng, additional, Fashandi, Hossein, additional, Wiedwald, Ulf, additional, Salikhov, Ruslan, additional, Farle, Michael, additional, Petruhins, Andrejs, additional, Lu, Jun, additional, Hultman, Lars, additional, Eklund, Per, additional, and Rosen, Johanna, additional

Published
2018
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45. Enhanced spin–orbit coupling in tetragonally strained Fe–Co–B films

Author

Salikhov, Ruslan, Reichel, Ludwig, Zingsem, B., Abrudan, R., Edström, Alexander, Thonig, Danny, Rusz, Jan, Eriksson, Olle, Schultz, Ludwig, Fähler, Sebastian, Farle, Michael, Wiedwald, Ulf, Salikhov, Ruslan, Reichel, Ludwig, Zingsem, B., Abrudan, R., Edström, Alexander, Thonig, Danny, Rusz, Jan, Eriksson, Olle, Schultz, Ludwig, Fähler, Sebastian, Farle, Michael, and Wiedwald, Ulf

Abstract

Tetragonally strained interstitial Fe-Co-B alloys were synthesized as epitaxial films grown on a 20 nm thick Au0.55Cu0.45 buffer layer. Different ratios of the perpendicular to in-plane lattice constant c/a = 1.013, 1.034 and 1.02 were stabilized by adding interstitial boron with different concentrations 0, 4, and 10 at.%, respectively. Using ferromagnetic resonance (FMR) and x-ray magnetic circular dichroism (XMCD) we found that the total orbital magnetic moment significantly increases with increasing c/a ratio, indicating that reduced crystal symmetry and interstitial B leads to a noticeable enhancement of the effect of spin-orbit coupling (SOC) in the Fe-Co-B alloys. First-principles calculations reveal that the increase in orbital magnetic moment mainly originates from B impurities in octahedral position and the reduced symmetry around B atoms. These findings offer the possibility to enhance SOC phenomena-namely the magnetocrystalline anisotropy and the orbital moment-by stabilizing anisotropic strain by doping 4 at.% B. Results on the influence of B doping on the Fe-Co film microstructure, their coercive field and magnetic relaxation are also presented., Title in list of papers in Thesis: Enhanced and Tunable Spin-Orbit Coupling in tetragonally Strained Fe-Co-B Films

Published
2017
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48. Magnetic Anisotropy in the (Cr0.5Mn0.5)2GaC MAX Phase

Author

Salikhov, Ruslan, Farle, Michael, Wiedwald, Ulf, Rosen, Johanna, Ingason, Arni Sigurdur, Petruhins, Andrejs, and Semisalova, Anna S.

Subjects
Ferromagnetic Resonance, Condensed Matter::Materials Science, Forschungszentren » Center for Nanointegration Duisburg-Essen (CENIDE), ddc:53, g-Factor, Physical Sciences, Fysik, ddc:530, Magnetic MAX Phase, Physik (inkl. Astronomie), Magnetic Anisotropy
Abstract

Magnetic MAX phase (Cr0.5Mn0.5)(2)GaC thin films grown epitaxially on MgO(111) substrates were studied by ferromagnetic resonance at temperatures between 110 and 300 K. The spectroscopic splitting factor g = 2.00 +/- 0.01 measured at all temperatures indicates pure spin magnetism in the sample. At all temperatures we find the magnetocrystalline anisotropy energy to be negligible which is in agreement with the identified pure spin magnetism. Funding Agencies|EC [280670]; UDE; ERC [258509]; Swedish Research Council (VR) [642-2013-8020]; SSF synergy grant FUNCASE

Published
2015

49. Direct measurement of anisotropic conductivity in a nanolaminated (Mn0.5Cr0.5)2GaC thin film.

Author

Flatten, Tim, Matthes, Frank, Petruhins, Andrejs, Salikhov, Ruslan, Wiedwald, Ulf, Farle, Michael, Rosen, Johanna, Bürgler, Daniel E., and Schneider, Claus M.

Subjects
SCANNING tunneling microscopy, THIN films, NANOSATELLITES, METALLIC bonds, ELECTRICAL resistivity, SPACE probes, ORTHOTROPIC plates, CHROMIUM
Abstract

The direct and parameter-free measurement of anisotropic electrical resistivity of a magnetic Mn+1AXn (MAX) phase film is presented. A multitip scanning tunneling microscope is used to carry out 4-probe transport measurements with variable probe spacing s. The observation of the crossover from the 3D regime for small s to the 2D regime for large s enables the determination of both in-plane and perpendicular-to-plane resistivities ρab and ρc. A (Cr0.5Mn0.5)2GaC MAX phase film shows a large anisotropy ratio ρ c / ρ ab = 525 ± 49. This is a consequence of the complex bonding scheme of MAX phases with covalent M–X and metallic M–M bonds in the MX planes and predominately covalent, but weaker bonds between the MX and A planes. [ABSTRACT FROM AUTHOR]

Published
2019
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50. Long-term stability and thickness dependence of magnetism in thin (Cr0.5Mn0.5)2GaC MAX phase films.

Author

Novoselova, Iuliia P., Petruhins, Andrejs, Wiedwald, Ulf, Weller, Dieter, Rosen, Johanna, Farle, Michael, and Salikhov, Ruslan

Subjects
MAGNETISM, MAGNETIC properties, NANOPARTICLES, NANOSTRUCTURED materials, MAGNETIC fields
Abstract

The thickness dependence and long-term stability of the magnetic properties of epitaxial (Cr0.5Mn0.5)2GaC MAX phase films on MgO (111) were investigated. For 12.5- to 156-nm-thick films, which corresponds to 10-125 c-axis unit cells, samples were found to be phase pure with negligible c-axis lattice strain of less than 10−4 nm even for the thinnest films. No influence of the interface layers on the magnetic anisotropy, the magnetization or the para- to ferromagnetic phase transition was observed. All samples remained stable for more than one year in ambient conditions. The complex temperature- and magnetic field-dependent magnetism of electrically conducting (Cr0.5Mn0.5)2GaC MAX phase films is environmentally robust over one year and independent on interface effects. [ABSTRACT FROM AUTHOR]

Published
2019
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