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243 results on '"Kubota, Takahide"'

1. Perpendicular magnetic anisotropy of an ultrathin Fe layer grown on NiO(001)

Author

Kobayashi, Soki, Koizumi, Hiroki, Yanagihara, Hideto, Okabayashi, Jun, Kondo, Takahiro, Kubota, Takahide, Takanashi, Koki, and Sonobe, Yoshiaki

Subjects
Condensed Matter - Materials Science
Abstract

The magnetic anisotropy and magnetic interactions at the interface between Fe and NiO(001) were investigated. Depending on the growth conditions of the NiO(001) layers and the post-annealing temperature, the preferential magnetization direction of the ultrathin Fe layer grown on a NiO(001) layer changed from in-plane to a direction perpendicular to the film plane. The lattice constant of the NiO(001) layers parallel to the growth direction increased with O$_2$ flow rate, while that parallel to the in-plane were locked onto the MgO(001) substrate regardless of the growth conditions of the NiO layers. Moreover, perpendicular magnetization was observed only when the NiO layer was grown with O$_2$ flow rates higher than 2.0 sccm corresponding to oxygen-rich NiO. X-ray magnetic circular dichroism measurements revealed an enhancement in anisotropic orbital magnetic moments similar to the origin of perpendicular magnetic anisotropy at the Fe/MgO(001) interface. The interfacial magnetic anisotropy energies were 0.93 and 1.02 mJ/m$^2$ at room temperature and at 100 K, respectively, indicating less temperature dependence. In contrast, the coercivity $H_c$ exhibited a significant temperature dependence. Although no signature of exchange bias or unidirectional loop shift was observed, $H_c$ was strongly dependent on the NiO layer thickness, indicating that the exchange interaction at the interface between the ferromagnetic and antiferromagnetic layers was not negligible, despite the NiO(001) being a spin-compensated surface., Comment: 9 pages including 7 figures

Published
2023

3. Magnetoelastic anisotropy in Heusler-type Mn$_{2-\delta}$CoGa$_{1+\delta}$ films

Author

Kubota, Takahide, Takano, Daichi, Kota, Yohei, Mohanty, Shaktiranjan, Ito, Keita, Matsuki, Mitsuhiro, Hayashida, Masahiro, Sun, Mingling, Takeda, Yukiharu, Saitoh, Yuji, Bedanta, Subhankar, Kimura, Akio, and Takanashi, Koki

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

Perpendicular magnetization is essential for high-density memory application using magnetic materials. High-spin polarization of conduction electrons is also required for realizing large electric signals from spin-dependent transport phenomena. Heusler alloy is a well-known material class showing the half-metallic electronic structure. However, its cubic lattice nature favors in-plane magnetization and thus minimizes the perpendicular magnetic anisotropy (PMA), in general. This study focuses on an inverse-type Heusler alloy, Mn$_{2-\delta}$CoGa$_{1+\delta}$ (MCG) with a small off-stoichiometry ($\delta$) , which is expected to be a half-metallic material. We observed relatively large uniaxial magnetocrystalline anisotropy constant ($K_\mathrm{u}$) of the order of 10$^5$ J/m$^3$ at room temperature in MCG films with a small tetragonal distortion of a few percent. A positive correlation was confirmed between the $c/a$ ratio of lattice constants and $K_\mathrm{u}$. Imaging of magnetic domains using Kerr microscopy clearly demonstrated a change in the domain patterns along with $K_\mathrm{u}$. X-ray magnetic circular dichroism (XMCD) was employed using synchrotron radiation soft x-ray beam to get insight into the origin for PMA. Negligible angular variation of orbital magnetic moment ($\Delta m_\mathrm{orb}$) evaluated using the XMCD spectra suggested a minor role of the so-called Bruno's term to $K_\mathrm{u}$. Our first principles calculation reasonably explained the small $\Delta m_\mathrm{orb}$ and the positive correlation between the $c/a$ ratio and $K_\mathrm{u}$. The origin of the magnetocrystalline anisotropy was discussed based on the second-order perturbation theory in terms of the spin--orbit coupling, claiming that the mixing of the occupied $\uparrow$- and the unoccupied $\downarrow$-spin states is responsible for the PMA of the MCG films.

Published
2021
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4. Perpendicular magnetic anisotropy in ultra-thin Cu$_2$Sb-type (Mn-Cr)AlGe films onto thermally oxidized silicon substrates

Author

Kubota, Takahide, Ito, Keita, Umetsu, Rie Y, and Takanashi, Koki

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

Perpendicularly magnetized films showing small saturation magnetization, $M_\mathrm{s}$, are essential for spin-transfer-torque writing type magnetoresistive random access memories, STT-MRAMs. An intermetallic compound, {(Mn-Cr)AlGe} of the Cu$_2$Sb-type crystal structure was investigated, in this study, as a material showing the low $M_\mathrm{s}$ ($\sim 300$ kA/m) and high-perpendicular magnetic anisotropy, $K_\mathrm{u}$. The layer thickness dependence of $K_\mathrm{u}$ and effects of Mg-insertion layers at top and bottom (Mn-Cr)AlGe$|$MgO interfaces were studied in film samples fabricated onto thermally oxidized silicon substrates to realize high-$K_\mathrm{u}$ in the thickness range of a few nanometer. Optimum Mg-insertion thicknesses were 1.4 and 3.0 nm for the bottom and the top interfaces, respectively, which were relatively thick compared to results in similar insertion effect investigations on magnetic tunnel junctions reported in previous studies. The cross-sectional transmission electron microscope images revealed that the Mg-insertion layers acted as barriers to interdiffusion of Al-atoms as well as oxidization from the MgO layers. The values of $K_\mathrm{u}$ were about $7 \times 10^5$ and $2 \times 10^5$ J/m$^3$ at room temperature for 5 and 3 nm-thick (Mn-Cr)AlGe films, respectively, with the optimum Mg-insertion thicknesses. The $K_\mathrm{u}$ at a few nanometer thicknesses is comparable or higher than those reported in perpendicularly magnetized CoFeB films which are conventionally used in MRAMs, while the $M_\mathrm{s}$ value is one third or less smaller than those of the CoFeB films. The developed (Mn-Cr)AlGe films are promising from the viewpoint of not only the magnetic properties, but also the compatibility to the silicon process in the film fabrication., Comment: Supplementary material is available upon reasonable request to the corresponding author

Published
2021
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5. Interlayer exchange coupling through Ir-doped Cu spin Hall material

Author

Masuda, Hiroto, Seki, Takeshi, Lau, Yong-Chang, Kubota, Takahide, and Takanashi, Koki

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

Metallic superlattices where the magnetization vectors in the adjacent ferromagnetic layers are antiferromagnetically coupled by the interlayer exchange coupling through nonmagnetic spacer layers are systems available for the systematic study on antiferromagnetic (AF) spintronics. As a candidate of nonmagnetic spacer layer material exhibiting remarkable spin Hall effect, which is essential to achieve spin-orbit torque switching, we selected the Ir-doped Cu in this study. The AF-coupling for the Co / Cu$_{95}$Ir$_{5}$ / Co was investigated, and was compared with those for the Co / Cu / Co and Co / Ir / Co. The maximum magnitude of AF-coupling strength was obtained to be 0.39 mJ/m$^{2}$ at the Cu$_{95}$Ir$_{5}$ thickness of about 0.75 nm. Furthermore, we found a large spin Hall angle of Cu$_{95}$Ir$_{5}$ in Co / Cu$_{95}$Ir$_{5}$ bilayers by carrying out spin Hall magnetoresistance and harmonic Hall voltage measurements, which are estimated to be 3 ~ 4 %. Our experimental results clearly indicate that Cu$_{95}$Ir$_{5}$ is a nonmagnetic spacer layer allowing us to achieve moderately strong AF-coupling and to generate appreciable spin-orbit torque via the spin Hall effect., Comment: 28 pages, 7 figures

Published
2020
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6. Scaling of quadratic and linear magnetooptic Kerr effect spectra with L2$_1$ ordering of Co$_2$MnSi Heusler compound

Author

Silber, Robin, Král, Daniel, Stejskal, Ondřej, Kubota, Takahide, Ando, Yasuo, Pištora, Jaromír, Veis, Martin, Hamrle, Jaroslav, and Kuschel, Timo

Subjects
Physics - Applied Physics
Abstract

The Heusler compound Co$_2$MnSi provides a crystallographic transition from B2 to L2$_1$ structure with increasing annealing temperature $T_a$, being a model system for investigating the influence of crystallographic ordering on structural, magnetic, optic, and magnetooptic (MO) properties. Here, we present quadratic magnetooptic Kerr effect (QMOKE) spectra depending on $M^2$ in addition to the linear magnetooptic Kerr effect (LinMOKE) spectra being proportional to $M$, both in the extended visible spectral range of light from 0.8\,eV to 5.5\,eV. We investigated a set of Co$_2$MnSi thin films deposited on MgO(001) substrates and annealed from 300$^\circ$C to 500$^\circ$C. The amplitude of LinMOKE and QMOKE spectra scales linearly with $T_a$, and this effect is well pronounced at the resonant peaks below 2.0\,eV of the QMOKE spectra. Furthermore, the spectra of the MO parameters, which fully describe the MO response of Co$_2$MnSi up to the second order in $M$, are obtained dependend on $T_a$. Finally, the spectra are compared to ab-initio calculations of a purely L2$_1$ ordered Co$_2$MnSi Heusler compound., Comment: 4 pages, 3 figures, supplemental pdf, supplemental data files

Published
2020
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7. Spin-charge conversion in NiMnSb Heusler alloy films

Author

Wen, Zhenchao, Qiu, Zhiyong, Tolle, Sebastian, Gorini, Cosimo, Seki, Takeshi, Hou, Dazhi, Kubota, Takahide, Eckern, Ulrich, Saitoh, Eiji, and Takanashi, Koki

Subjects
Condensed Matter - Materials Science
Abstract

Half-metallic Heusler alloys are attracting considerable attention because of their unique half-metallic band structures which exhibit high spin polarization and yield huge magnetoresistance ratios. Besides serving as ferromagnetic electrodes, Heusler alloys also have the potential to host spin-charge conversion which has been recently demonstrated in other ferromagnetic metals. Here, we report on the spin-charge conversion effect in the prototypical Heusler alloy NiMnSb. Spin currents were injected from Y3Fe5O12 into NiMnSb films by spin pumping, and then the spin currents were converted to charge currents via spin-orbit interactions. Interestingly, an unusual charge signal was observed with a sign change at low temperature, which can be manipulated by film thickness and ordering structure. It is found that the spin-charge conversion has two contributions. First, the interfacial contribution causes a negative voltage signal, which is almost constant versus temperature. The second contribution is temperature dependent because it is dominated by minority states due to thermally excited magnons in the bulk part of the film. This work provides a pathway for the manipulation of spin-charge conversion in ferromagnetic metals by interface-bulk engineering for spintronic devices., Comment: 20 pages, 6 figures

Published
2019
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9. Mn$_2$VAl Heusler alloy thin films: Appearance of antiferromagnetism and an exchange bias in a layered structure with Fe

Author

Tsuchiya, Tomoki, Kobayashi, Ryota, Kubota, Takahide, Saito, Kotaro, Ono, Kanta, Ohhara, Takashi, Nakao, Akiko, and Takanashi, Koki

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

Mn$_2$VAl Heusler alloy films were epitaxially grown on MgO(100) single crystal substrates by means of ultra-high-vacuum magnetron sputtering. A2 and L2$_1$ type Mn$_2$VAl order was controlled by the deposition temperatures. A2-type Mn$_2$VAl films showed no spontaneous magnetization and L2$_1$-type Mn$_2$VAl films showed ferrimagnetic behavior with a maximum saturation magnetization of 220 emu/cm$^3$ at room temperature. An antiferromagnetic reflection was observed with neutron diffraction at room temperature for an A2-type Mn$_2$VAl film deposited at 400$^\circ$C. A bilayer sample of the antiferromagnetic A2 Mn$_2$VAl and Fe showed an exchange bias of 120 Oe at 10 K.

Published
2017
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10. Nonlinear electric field effect on perpendicular magnetic anisotropy in Fe/MgO interfaces

Author

Xiang, Qingyi, Wen, Zhenchao, Sukegawa, Hiroaki, Kasai, Shinya, Seki, Takeshi, Kubota, Takahide, Takanashi, Koki, and Mitani, Seiji

Subjects
Condensed Matter - Materials Science
Abstract

The electric field effect on magnetic anisotropy was studied in an ultrathin Fe(001) monocrystalline layer sandwiched between Cr buffer and MgO tunnel barrier layers, mainly through post-annealing temperature and measurement temperature dependences. A large coefficient of the electric field effect of more than 200 fJ/Vm was observed in the negative range of electric field, as well as an areal energy density of perpendicular magnetic anisotropy (PMA) of around 600 uJ/m2. More interestingly, nonlinear behavior, giving rise to a local minimum around +100 mV/nm, was observed in the electric field dependence of magnetic anisotropy, being independent of the post-annealing and measurement temperatures. The insensitivity to both the interface conditions and the temperature of the system suggests that the nonlinear behavior is attributed to an intrinsic origin such as an inherent electronic structure in the Fe/MgO interface. The present study can contribute to the progress in theoretical studies, such as ab initio calculations, on the mechanism of the electric field effect on PMA.

Published
2017
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11. Voltage control of magnetic anisotropy in epitaxial Ru/Co2FeAl/MgO heterostructures

Author

Wen, Zhenchao, Sukegawa, Hiroaki, Seki, Takeshi, Kubota, Takahide, Takanashi, Koki, and Mitani, Seiji

Subjects
Condensed Matter - Materials Science
Abstract

Voltage control of magnetic anisotropy (VCMA) in magnetic heterostructures is a key technology for achieving energy-efficiency electronic devices with ultralow power consumption. Here, we report the first demonstration of the VCMA effect in novel epitaxial Ru/Co2FeAl(CFA)/MgO heterostructures with interfacial perpendicular magnetic anisotropy (PMA). Perpendicularly magnetized tunnel junctions with the structure of Ru/CFA/MgO were fabricated and exhibited an effective voltage control on switching fields for the CFA free layer. A large VCMA coefficient of 108 (139) fJ/Vm for the CFA film was achieved at room temperature (4 K). The interfacial stability in the heterostructure was confirmed by repeating measurements. Temperature dependences of both the interfacial PMA and the VCMA effect were also investigated. It is found that the temperature dependences follow power laws of the saturation magnetization with an exponent of ~2. The significant VCMA effect observed in this work indicates that the Ru/CFA/MgO heterostructure could be one of the promising candidates for spintronic devices with voltage control., Comment: 16 pages, 4 figures

Published
2016
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12. Modelling of the Peltier effect in magnetic multilayers

Author

Juarez-Acosta, Isaac, Olivares-Robles, Miguel A., Bosu, Subrojati, Sakuraba, Yuya, Kubota, Takahide, Takahashi, Saburo, Takanashi, Koki, and Bauer, Gerrit E. W.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We model the charge, spin, and heat currents in ferromagnetic metal$|$normal metal$|$normal metal trilayer structures in the two current model, taking into account bulk and interface thermoelectric properties as well as Joule heating. Results include the temperature distribution as well as resistance-current curves that reproduce the observed shifted parabolic characteristics. Thin tunneling barriers can enhance the apparent Peltier cooling. The model agrees with experimental results for wide multilayer pillars, but the giant effects observed for diameters $\lesssim 100\,$nm are still under discussion., Comment: 11 pages, 7 figures

Published
2015
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13. Magnetic dichroism study on Mn$_{1.8}$Co$_{1.2}$Ga thin film using a combination of X-ray absorption and photoemission spectroscopy

Author

Ouardi, Siham, Fecher, Gerhard H., Kubota, Takahide, Mizukami, Shigemi, Ikenaga, Eiji, Nakamura, Tetsuya, and Felser, Claudia

Subjects
Condensed Matter - Materials Science
Abstract

Using circularly polarised radiation and a combination of bulk-sensitive hard X-ray photoelectron spectroscopy and X-ray-absorption spectroscopy (XAS) we studied the electronic and magnetic structure of epitaxial Mn$_{1.8}$Co$_{1.2}$Ga thin films. Spin resolved Bloch spectral functions, density of states as well as charge and magnetisation densities were investigated by a first-principles analysis of full potential, fully relativistic Korringa--Kohn--Rostoker calculations of the electronic structure. The valence states were experimentally investigated by using linear dichroism in the angular distribution and comparing the results to spin-resolved densities of states. The linear dichroism in the valence band enabled a symmetry analysis of the contributing states. The spectra were in good agreement with the theoretical partial density of states. The element-specific, spin-resolved, unoccupied densities of states for Co and Mn were analysed by using XAS and X-ray magnetic circular dichroism (XMCD) at the $L_{3,2}$ edges. The spectra were influenced by strong correlation effects. XMCD was used to extract the site resolved magnetic moments. The experimental values of $m_{\rm Mn}=0.7\:\mu_B$ and $m_{\rm Co}=1.05\:\mu_B$ agree very well with the calculated magnetic moments. Magnetic circular dichroism in angle-resolved photoelectron spectroscopy at the Mn and Co $2p$ core level exhibited a pronounced magnetic dichroism and confirmed the localised character of the Mn $d$ valence states.

Published
2015
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14. Direct measurement of the magnetic anisotropy field in Mn--Ga and Mn--Co--Ga Heusler films

Author

Fowley, Ciarán, Ouardi, Siham, Kubota, Takahide, Oguz, Yildirim, Neudert, Andreas, Lenz, Kilian, Sluka, Volker, Lindner, Jürgen, Law, Joseph M., Mizukami, Shigemi, Fecher, Gerhard H., Felser, Claudia, and Deac, and Alina M.

Subjects
Condensed Matter - Materials Science
Abstract

The static and dynamic magnetic properties of tetragonally distorted Mn--Ga based alloys were investigated. Static properties are determined in magnetic fields up to 6.5~T using SQUID magnetometry. For the pure Mn$_{1.6}$Ga film, the saturation magnetisation is 0.36~MA/m and the coercivity is 0.29~T. Partial substitution of Mn by Co results in Mn$_{2.6}$Co$_{0.3}$Ga$_{1.1}$. The saturation magnetisation of those films drops to 0.2~MA/m and the coercivity is increased to 1~T. Time-resolved magneto-optical Kerr effect (TR-MOKE) is used to probe the high-frequency dynamics of Mn--Ga. The ferromagnetic resonance frequency extrapolated to zero-field is found to be 125~GHz with a Gilbert damping, $\alpha$, of 0.019. The anisotropy field is determined from both SQUID and TR-MOKE to be 4.5~T, corresponding to an effective anisotropy density of 0.81~MJ/m$^3$. Given the large anisotropy field of the Mn$_{2.6}$Co$_{0.3}$Ga$_{1.1}$ film, pulsed magnetic fields up to 60~T are used to determine the field strength required to saturate the film in the plane. For this, the extraordinary Hall effect was employed as a probe of the local magnetisation. By integrating the reconstructed in--plane magnetisation curve, the effective anisotropy energy density for Mn$_{2.6}$Co$_{0.3}$Ga$_{1.1}$ is determined to be 1.23~MJ/m$^3$., Comment: J. Phys. D (accepted)

Published
2015
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15. Spin Electronics

Author

Kubota, Takahide, Seki, Takeshi, Takanashi, Koki, Setsuhara, Yuichi, editor, Kamiya, Toshio, editor, and Yamaura, Shin-ichi, editor

Published
2019
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19. Magnetic and transport properties of tetragonal- or cubic-Heusler-type Co-substituted Mn-Ga epitaxial thin films

Author

Kubota, Takahide, Ouardi, Siham, Mizukami, Shigemi, Fecher, Gerhard H., Felser, Claudia, Ando, Yasuo, and Miyazaki, Terunobu

Subjects
Condensed Matter - Materials Science
Abstract

The composition dependence of the structural, magnetic, and transport properties of epitaxially grown Mn-Co-Ga films were investigated. The crystal structure was observed to change from tetragonal to cubic as the Co content was increased. In terms of the dependence of saturation magnetization on the Co content, relatively small value was obtained for the Mn$_{2.3}$Co$_{0.4}$Ga$_{1.3}$ film at a large {\it K}$_\textrm u$ value of 9.2 Merg/cm$^3$. Electrical resistivity of Mn-Co-Ga films was larger than that of pure Mn-Ga film. The maximum value of the resistivity was 490 $\mu\Omega$cm for Mn$_{2.2}$Co$_{0.6}$Ga$_{1.2}$ film. The high resistivity of Mn-Co-Ga might be due to the presence of localized electron states in the films due to chemical disordering caused by the Co substitution., Comment: 3 pages, 5 figures. The article has been submitted to the Journal of Applied Physics as a Proceedings for the 12th Joint MMM/INTERMAG conference

Published
2012
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20. Perpendicularly magnetized Mn-Co-Ga-based thin films with high coercive field

Author

Ouardi, Siham, Kubota, Takahide, Fecher, Gerhard H., Stinshoff, Rolf, Mizukami, Shigemi, Miyazaki, Terunobu, Ikenaga, Eiji, and Felser, Claudia

Subjects
Condensed Matter - Materials Science
Abstract

Mn$_{3-x}$Co$_{x}$Ga epitaxial thin films were grown on MgO substrates by magnetron co-sputtering. Structures were tetragonal or cubic depending on Co content. Composition dependence of saturation magnetization and uniaxial magnetic anisotropy $K_u$ of the films were investigated. A high $K_u$ (1.2 MJ m$^{-3}$) was achieved for the Mn$_{2.6}$Co$_{0.3}$Ga$_{1.1}$ film with the magnetic moment 0.84$\mu_B$. Valence band spectra were obtained by hard X-ray photoelectron spectroscopy. Sharp peaks in the cubic case, which were absent in the tetragonal case, prove that a van Hove singularity causes a band Jahn-Teller effect with tetragonal distortion. Observations agree well with the first-principles calculations.

Published
2012
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21. List of contributors

Author

Elphick, Kelvin, primary, Fischer, Peter, additional, Frost, William, additional, Fujita, Takayuki, additional, Fukami, Shunsuke, additional, Fukushima, Akio, additional, Handa, Hiroshi, additional, Hatano, Mutsuko, additional, Hillebrands, Burkard, additional, Hirohata, Atsufumi, additional, Horii, Kazuyoshi, additional, Irino, Tomoyuki, additional, Ishiguro, Yuto, additional, Ishihara, Tomoko, additional, Ishikawa, Noriaki, additional, Jędryka, Ewa, additional, Jeyadevan, Balachandran, additional, Kakuta, Masaya, additional, Kanda, Kensuke, additional, Kerber, Nico, additional, Kitamoto, Yoshitaka, additional, Kläui, Mathias, additional, Kohno, Hiroshi, additional, Kubota, Hitoshi, additional, Kubota, Takahide, additional, Kudo, Takahiro, additional, Kusakabe, Moriaki, additional, Kuwahata, Akihiro, additional, Lee, Dong-Kyu, additional, Lee, Kyung-Jin, additional, Mamiya, Hiroaki, additional, Marnitz, Luca, additional, Matsuda, Sachiko, additional, Mizuguchi, Masaki, additional, Moskaltsova, Anastasiia, additional, Murata, Keita, additional, Nakane, Jotaro J., additional, Nakatani, Yoshinobu, additional, Nowak, Ulrich, additional, Ogasawara, Takeshi, additional, Ogawa, Toru, additional, Ohkochi, Takuo, additional, Onishi, Tatsuya, additional, Ono, Teruo, additional, Oogane, Mikihiko, additional, Oura, Masaki, additional, Polewczyk, Vincent, additional, Ramos, Rafael, additional, Reiss, Günter, additional, Saito, Yoshiaki, additional, Saitoh, Eiji, additional, Sato, Nana, additional, Schmalhorst, Jan-Michael, additional, Seki, Takeshi, additional, Sekiguchi, Koji, additional, Sekino, Masaki, additional, Stadler, Bethanie J.H., additional, Sukegawa, Hiroaki, additional, Suzuki, Motohiro, additional, Takanashi, Koki, additional, Tamaru, Shingo, additional, Tashiro, Kunihisa, additional, Tatara, Gen, additional, Tomita, Satoshi, additional, Ueda, Tetsuya, additional, Ueno, Toshiyuki, additional, Vaz, Carlos A.F., additional, Wakiwaka, Hiroyuki, additional, Weißenhofer, Markus, additional, Wójcik, Marek, additional, Yabukami, Shin, additional, Yamada, Keisuke, additional, Yamaguchi, Akinobu, additional, Yanagihara, Hideto, additional, and Zamani Kouhpanji, Mohammad Reza, additional

Published
2021
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28. Magnetoelastic anisotropy in Heusler-type Mn2−δCoGa1+δ films

Author

Kubota, Takahide, primary, Takano, Daichi, additional, Kota, Yohei, additional, Mohanty, Shaktiranjan, additional, Ito, Keita, additional, Matsuki, Mitsuhiro, additional, Hayashida, Masahiro, additional, Sun, Mingling, additional, Takeda, Yukiharu, additional, Saitoh, Yuji, additional, Bedanta, Subhankar, additional, Kimura, Akio, additional, and Takanashi, Koki, additional

Published
2022
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31. Generation of terahertz transients from Co2Fe0.4Mn0.6Si -Heusler-alloy/normal-metal nanobilayers excited by femtosecond optical pulses

Author

Heidtfeld, Sarah, primary, Adam, Roman, additional, Kubota, Takahide, additional, Takanashi, Koki, additional, Cao, Derang, additional, Schmitz-Antoniak, Carolin, additional, Bürgler, Daniel E., additional, Wang, Fangzhou, additional, Greb, Christian, additional, Chen, Genyu, additional, Komissarov, Ivan, additional, Hardtdegen, Hilde, additional, Mikulics, Martin, additional, Sobolewski, Roman, additional, Suga, Shigemasa, additional, and Schneider, Claus M., additional

Published
2021
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32. Heusler alloys for spintronic devices: review on recent development and future perspectives

Author

Elphick, Kelvin, Frost, William James, Samiepour, Marjan, Kubota, Takahide, Takanashi, Koki, Mitani, S., and Hirohata, Atsufumi

Subjects
Condensed Matter::Materials Science, Condensed Matter::Strongly Correlated Electrons
Abstract

Heusler alloys are theoretically predicted to become half-metals at room temperature (RT). The advantages of using these alloys are good lattice matching with major substrates, high Curie temperature above RT and intermetallic controllability for spin density of states at the Fermi energy level. The alloys are categorised into half- and full-Heusler alloys depending upon the crystalline structures, each being discussed both experimentally and theoretically in Section 2. Fundamental properties of ferromagnetic Heusler alloys are described in Section 3. Both structural and magnetic characterisations on an atomic scale are typically carried out in order to prove the half-metallicity at RT as described in Section 4. Atomic ordering in the Heusler-alloy films is directly observed by X-ray diffraction and is also indirectly probed via the temperature dependence of electrical resistivity. Element specific magnetic moments and spin polarisation of the Heusler alloy films are directly measured using X-ray magnetic circular dichroism and Andreev reflection, respectively. By employing these ferromagnetic alloy films in a spintronic device, efficient spin injection into a non-magnetic material and large magnetoresistance are discussed in Section 5. Fundamental properties of antiferromagnetic Heusler alloys are described in Section 6. Both structural and magnetic characterisations on an atomic scale are shown in Section 7. Atomic ordering in the Heusler-alloy films is indirectly measured by the temperature dependence of electrical resistivity. Antiferromagnetic configurations are directly imaged by X-ray magnetic linear dichroism and polarised neutron reflection. Section 8 explains applications of the antiferromagnetic Heusler-alloy films. The other non-magnetic Heusler alloys are listed in Section 9. A brief summary is provided at the end of this review.

Published
2021

33. Magnetoelastic anisotropy in Heusler-type Mn$_{2-δ}$CoGa$_{1+δ}$ films

Author

Kubota, Takahide, Takano, Daichi, Kota, Yohei, Mohanty, Shaktiranjan, Ito, Keita, Matsuki, Mitsuhiro, Hayashida, Masahiro, Sun, Mingling, Takeda, Yukiharu, Saitoh, Yuji, Bedanta, Subhankar, Kimura, Akio, and Takanashi, Koki

Subjects
Condensed Matter::Materials Science, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, Applied Physics (physics.app-ph)
Abstract

Perpendicular magnetization is essential for high-density memory application using magnetic materials. High-spin polarization of conduction electrons is also required for realizing large electric signals from spin-dependent transport phenomena. Heusler alloy is a well-known material class showing the half-metallic electronic structure. However, its cubic lattice nature favors in-plane magnetization and thus minimizes the perpendicular magnetic anisotropy (PMA), in general. This study focuses on an inverse-type Heusler alloy, Mn$_{2-δ}$CoGa$_{1+δ}$ (MCG) with a small off-stoichiometry ($δ$) , which is expected to be a half-metallic material. We observed relatively large uniaxial magnetocrystalline anisotropy constant ($K_\mathrm{u}$) of the order of 10$^5$ J/m$^3$ at room temperature in MCG films with a small tetragonal distortion of a few percent. A positive correlation was confirmed between the $c/a$ ratio of lattice constants and $K_\mathrm{u}$. Imaging of magnetic domains using Kerr microscopy clearly demonstrated a change in the domain patterns along with $K_\mathrm{u}$. X-ray magnetic circular dichroism (XMCD) was employed using synchrotron radiation soft x-ray beam to get insight into the origin for PMA. Negligible angular variation of orbital magnetic moment ($Δm_\mathrm{orb}$) evaluated using the XMCD spectra suggested a minor role of the so-called Bruno's term to $K_\mathrm{u}$. Our first principles calculation reasonably explained the small $Δm_\mathrm{orb}$ and the positive correlation between the $c/a$ ratio and $K_\mathrm{u}$. The origin of the magnetocrystalline anisotropy was discussed based on the second-order perturbation theory in terms of the spin--orbit coupling, claiming that the mixing of the occupied $\uparrow$- and the unoccupied $\downarrow$-spin states is responsible for the PMA of the MCG films.

Published
2021
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34. Generation of terahertz transients from Co₂Fe0.4 M0.6 Si-Heusler-alloy/normal-metal nanobilayers excited by femtosecond optical pulses

Author

Heidtfeld, Sarah, Adam, Roman, Kubota, Takahide, Takanashi, Koki, Cao, Derang, Schmitz-Antoniak, Carolin, Bürgler, Daniel E., Wang, Fangzhou, Greb, Christian, Chen, Genyu, Komissarov, Ivan, Hardtdegen, Hilde, Mikulics, Martin, Sobolewski, Roman, Suga, Shigemasa, and Schneider, Claus M.

Subjects
Physics::Optics, Physik (inkl. Astronomie)
Abstract

We generated pulses of electromagnetic radiation in the terahertz (THz) frequency range by optical excitation of (CFMS)/normal-metal (NM) bilayer structures. The CFMS is a Heusler alloy showing a band gap in one spin channel and is therefore a half metal. We compared the THz emission efficiency in a systematic manner for four different CFMS/NM bilayers, where NM was either Pt, Ta, Cr, or Al. Our measurements show that the THz intensity is highest for a Pt capping. We also demonstrate the tunability of the THz amplitude by varying the magnetic field for all four bilayers. We attribute the THz generation to the inverse spin Hall effect. In order to investigate the role of the interface in THz generation, we measured the spin mixing conductance for each CFMS/NM bilayer using a ferromagnetic resonance method. We found that the spin-orbit coupling cannot completely describe the THz generation in the bilayers and that the spin transmission efficiency of the CFMS/NM interface and the spin diffusion length, as well as the oxidation of the NM layer, play crucial roles in the THz emission process. CA extern

Published
2021

35. Generation of terahertz transients from Co 2 Fe 0.4 Mn 0.6 Si -Heusler-alloy/normal-metal nanobilayers excited by femtosecond optical pulses

Author

Heidtfeld, Sarah, Adam, Roman, Komissarov, Ivan, Hardtdegen, Hilde, Mikulics, Martin, Sobolewski, Roman, Suga, Shigemasa, Schneider, Claus M., Kubota, Takahide, Takanashi, Koki, Cao, Derang, Schmitz-Antoniak, Carolin, Bürgler, Daniel E., Wang, Fangzhou, Greb, Christian, and Chen, Genyu

Subjects
Physics::Optics, ddc:530
Abstract

We generated pulses of electromagnetic radiation in the terahertz (THz) frequency range by optical excitation of Co2Fe0.4Mn0.6Si (CFMS)/normal-metal (NM) bilayer structures. The CFMS is a Heusler alloy showing a band gap in one spin channel and is therefore a half metal. We compared the THz emission efficiency in a systematic manner for four different CFMS/NM bilayers, where NM was either Pt, Ta, Cr, or Al. Our measurements show that the THz intensity is highest for a Pt capping. We also demonstrate the tunability of the THz amplitude by varying the magnetic field for all four bilayers. We attribute the THz generation to the inverse spin Hall effect. In order to investigate the role of the interface in THz generation, we measured the spin mixing conductance for each CFMS/NM bilayer using a ferromagnetic resonance method. We found that the spin-orbit coupling cannot completely describe the THz generation in the bilayers and that the spin transmission efficiency of the CFMS/NM interface and the spin diffusion length, as well as the oxidation of the NM layer, play crucial roles in the THz emission process.

Published
2021
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39. Strain‐Induced Large Anomalous Nernst Effect in Polycrystalline Co2MnGa/AlN Multilayers.

Author

Wang, Jian, Lau, Yong‐Chang, Zhou, Weinan, Seki, Takeshi, Sakuraba, Yuya, Kubota, Takahide, Ito, Keita, and Takanashi, Koki

Subjects
NERNST effect, THERMOELECTRIC conversion, THERMOELECTRIC effects, SEEBECK coefficient, MULTILAYERS, MULTILAYERED thin films, INTERFACIAL bonding
Abstract

The anomalous Nernst effect (ANE), one of the thermoelectric effects in a magnet, is recently attracting growing interest with its potential for the next generation high‐efficiency energy‐harvesting applications. However, the reported thermoelectric conversion efficiencies with ANE are small compared to those with Seebeck effect, which hampers its practical application. Unlike the intensive effort of seeking novel materials with large intrinsic ANE, here a new pathway is proposed to enhance the ANE by exploiting the strain induced in a multilayer structure. A large anomalous Nernst coefficient of 4.9 µV K−1 is achieved for a polycrystalline Co2MnGa/AlN multilayer film deposited on an amorphous substrate, which is larger than 3.8 µV K−1 for a polycrystalline Co2MnGa single layer film. The enhanced ANE is attributed to the effect of interfacial strain on the Seebeck coefficient, which is barely discussed yet. Since the AlN layer is available on any substrate materials, even on a flexible polyimide substrate large ANE is successfully achieved for the Co2MnGa/AlN stack. The findings and demonstration have opened a way to develop the ANE‐based potential applications. [ABSTRACT FROM AUTHOR]

Published
2022
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45. Efficiency of ultrafast optically induced spin transfer in Heusler compounds

Author

Steil, Daniel, primary, Walowski, Jakob, additional, Gerhard, Felicitas, additional, Kiessling, Tobias, additional, Ebke, Daniel, additional, Thomas, Andy, additional, Kubota, Takahide, additional, Oogane, Mikihiko, additional, Ando, Yasuo, additional, Otto, Johannes, additional, Mann, Andreas, additional, Hofherr, Moritz, additional, Elliott, Peter, additional, Dewhurst, John Kay, additional, Reiss, Günter, additional, Molenkamp, Laurens, additional, Aeschlimann, Martin, additional, Cinchetti, Mirko, additional, Münzenberg, Markus, additional, Sharma, Sangeeta, additional, and Mathias, Stefan, additional

Published
2020
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47. Modelling of the Peltier effect in magnetic multilayers.

Author

Juarez-Acosta, Isaac, Olivares-Robles, Miguel A., Bosu, Subrojati, Sakuraba, Yuya, Kubota, Takahide, Takahashi, Saburo, Takanashi, Koki, and Bauer, Gerrit E. W.

Subjects
FERROMAGNETISM, MULTILAYERS, PELTIER effect, RESISTANCE heating, HEAT transfer
Abstract

We model the charge, spin, and heat currents in ferromagnetic metaljnormal metaljnormal metal trilayer structures in the two current model, taking into account bulk and interface thermoelectric properties as well as Joule heating. The results include the temperature distribution as well as resistance-current curves that reproduce the observed shifted parabolic characteristics. Thin tunneling barriers can enhance the apparent Peltier cooling. The model agrees with the experimental results for wide multilayer pillars, but the giant effects observed for diameters ≲100 nm are still under discussion. [ABSTRACT FROM AUTHOR]

Published
2016
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49. Chemical and structural analysis on magnetic tunnel junctions using a decelerated scanning electron beam

Author

Jackson, Edward, Sun, Mingling, Kubota, Takahide, Takanashi, Koki, and Hirohata, Atsufumi

Subjects
lcsh:R, lcsh:Medicine, lcsh:Q, lcsh:Science, Article
Abstract

Current information technology relies on the advancement of nanofabrication techniques. For instance, the latest computer memories and hard disk drive read heads are designed with a 12 nm node and 20 nm wide architectures, respectively. With matured nanofabrication processes, a yield of such nanoelectronic devices is typically up to about 90%. To date the yield has been compensated with redundant hardware and software error corrections. In the latest memories, approximately 5% redundancy and parity bits for error corrections are used, which increase the total production cost of the devices. This means the yield directly affects the device costs. It is hence critical to increase the yield in nanofabrication. In this paper, we have applied our recently developed method to image buried interfaces in combination with chemical analysis to evaluate magnetic tunnel junctions and have revealed their different magnetoresistance ratios caused by the presence of materials formed at the junction edges. The formation of these materials can be avoided by optimising the junction patterning process to remove residual carbon introduced from resist. Our imaging method with chemical analysis have demonstrated a significant potential for the improvement of junction performance, resulting in higher yields. This can be used as a quality assurance tool in a nanoelectronic device production line.

Published
2018

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