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1. First-principle study of spin transport property in $L1_0$-FePd(001)/graphene heterojunction

Author

Adachi, Hayato, Endo, Ryuusuke, Shinya, Hikari, Naganuma, Hiroshi, Ono, Tomoya, and Uemoto, Mitsuharu

Subjects
Condensed Matter - Materials Science
Abstract

In our previous work, we synthesized a metal/2D material heterointerface consisting of $L1_0$-ordered iron-palladium (FePd) and graphene (Gr) called FePd(001)/Gr. This system has been explored by both experimental measurements and theoretical calculations. In this study, we focus on a heterojunction composed of FePd and multilayer graphene referred to as FePd(001)/$m$-Gr/FePd(001), where $m$ represents the number of graphene layers. We perform first-principles calculations to predict their spin-dependent transport properties. The quantitative calculations of spin-resolved conductance and magnetoresistance (MR) ratio (150-200%) suggest that the proposed structure can function as a magnetic tunnel junction in spintronics applications. We also find that an increase in $m$ not only reduces conductance but also changes transport properties from the tunneling behavior to the graphite $\pi$-band-like behavior. Additionally, we investigate the spin-transfer torque-induced magnetization switching behavior of our \color{blue} junction structures \color{black} using micromagnetic simulations. Furthermore, we examine the impact of lateral displacements (``sliding'') at the interface and find that the spin transport properties remain robust despite these changes; this is the advantage of two-dimensional material hetero-interfaces over traditional insulating barrier layers such as MgO., Comment: 22 pages, 9 figures

Published
2023

2. Density functional study of twisted graphene $L1_0$-FePd heterogeneous interface

Author

Uemoto, Mitsuharu, Adachi, Hayato, Naganuma, Hiroshi, and Ono, Tomoya

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

Graphene on $L1_0$-FePd(001), which has been experimentally studied in recent years, is a heterogeneous interface with a significant lattice symmetry mismatch between the honeycomb structure of graphene and tetragonal alloy surface. In this work, we report on the density functional study of its atomic-scale configurations, electronic and magnetic properties, and adsorption mechanism, which have not been well understood in previous experimental studies. We propose various atomic-scale models, including simple nontwisted and low-strain twisted interfaces, and analyze their energetical stability by performing structural optimizations using the van der Waals interactions of both DFT-D2 and optB86b-vdW functionals. The binding energy of the most stable structure reached $E_\mathrm{B}=-0.22$~eV/atom for DFT-D2 ($E_\mathrm{B}=-0.19$~eV/atom for optB86b-vdW). The calculated FePd-graphene spacing distance was approximately 2~\AA, which successfully reproduced the experimental value. We also find out characteristic behaviors: the modulation of $\pi$-bands, the suppression of the site-dependence of adsorption energy, and the rise of \color{blue} moir\'e-like \color{black} corrugated buckling. In addition, our atomic structure is expected to help build low-cost computational models for investigating the physical properties of $L1_0$ alloys/two-dimensional interfaces., Comment: 10 pages, 11 figures

Published
2022
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4. First-principle study of spin transport property in L10-FePd(001)/graphene heterojunction.

Author

Adachi, Hayato, Endo, Ryusuke, Shinya, Hikari, Naganuma, Hiroshi, Ono, Tomoya, and Uemoto, Mitsuharu

Subjects
MAGNETIC tunnelling, HETEROJUNCTIONS, TUNNEL junctions (Materials science), SPINTRONICS, GRAPHENE
Abstract

In our previous work, we synthesized a metal/2D material heterointerface consisting of L 1 0 -ordered iron–palladium (FePd) and graphene (Gr) called FePd(001)/Gr. This system has been explored by both experimental measurements and theoretical calculations. In this study, we focus on a heterojunction composed of FePd and multilayer graphene referred to as FePd(001)/ m -Gr/FePd(001), where m represents the number of graphene layers. We perform first-principles calculations to predict their spin-dependent transport properties. The quantitative calculations of spin-resolved conductance and magnetoresistance (MR) ratio (150 %– 200 %) suggest that the proposed structure can function as a magnetic tunnel junction in spintronics applications. We also find that an increase in m not only reduces conductance but also changes transport properties from the tunneling behavior to the graphite π -band-like behavior. Additionally, we investigate the spin-transfer torque-induced magnetization switching behavior of our junction structures using micromagnetic simulations. Furthermore, we examine the impact of lateral displacements (sliding) at the interface and find that the spin transport properties remain robust despite these changes; this is the advantage of two-dimensional material hetero-interfaces over traditional insulating barrier layers such as MgO. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Realization of a spin wave switch based on the Spin-Transfer-Torque effect

Author

Meyer, Thomas, Brächer, Thomas, Heussner, Frank, Serga, Alexander A., Naganuma, Hiroshi, Mukaiyama, Koki, Oogane, Mikihiko, Ando, Yasuo, Hillebrands, Burkard, and Pirro, Philipp

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We investigate the amplification of externally excited spin waves via the Spin-Transfer-Torque (STT) effect in combination with the Spin-Hall-Effect (SHE) employing short current pulses. The results reveal that, in the case of an overcompensation of the spin wave damping, a strong nonlinear shift of the spin wave frequency spectrum occurs. In particular, this shift affects the spin wave amplification using the SHE-STT effect. In contrast, this effect allows for the realization of a spin wave switch. By determining the corresponding working point, an efficient spin wave excitation is only possible in the presence of the SHE-STT effect yielding an increased spin wave intensity of a factor of 20 compared to the absence of the SHE-STT effect.

Published
2018
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8. Experimental investigation of the temperature-dependent magnon density and its influence on studies of spin-transfer-torque-driven systems

Author

Meyer, Thomas, Brächer, Thomas, Heussner, Frank, Serga, Alexander A., Naganuma, Hiroshi, Mukaiyama, Koki, Oogane, Mikihiko, Ando, Yasuo, Hillebrands, Burkard, and Pirro, Philipp

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We present the temperature dependence of the thermal magnon density in a thin ferromagnetic layer. By employing Brillouin light scattering and varying the temperature, an increase of the magnon density accompanied by a lowering of the spin-wave frequency is observed with increasing temperature. The magnon density follows the temperature according to the Bose-Einstein distribution function which leads to an approximately linear dependency. In addition, the influence of this effect in spin-transfer-torque-driven systems is presented. In particular, the increase in the magnon density with temperature sets the limit for a suppression of magnons in charge current-driven systems. Hence, the maximum possible suppression of thermal magnons occurs at a finite current., Comment: 5 pages, 4 figures

Published
2017

11. Revealing the spin and symmetry properties of the buried Co2MnSi/MgO interface by low energy spin-resolved photoemission

Author

Fetzer, Roman, Lösch, Marcel, Ohdaira, Yusuke, Naganuma, Hiroshi, Oogane, Mikihiko, Ando, Yasuo, Taira, Tomoyuki, Uemura, Tetsuya, Yamamoto, Masafumi, Aeschlimann, Martin, and Cinchetti, Mirko

Subjects
Condensed Matter - Materials Science
Abstract

We present a novel approach to study the spin and symmetry electronic properties of buried interfaces using low-energy spin-resolved photoemission spectroscopy. We show that this method is sensitive to interfaces buried below more than 20ML (~4nm) MgO, providing a powerful tool for the non-destructive characterization of spintronics interfaces. As a demonstration, we apply this technique to characterize the Co2MnSi/MgO interface, a fundamental building block of state-of-the-art magnetic tunnel junctions based on Heusler compounds. We find that a surface state with {\Delta}1 symmetry and minority spin character dominating the electronic structure of the bare Co2MnSi(100) surface is quenched at the Co2MnSi(100)/MgO interface. As a result, the interface spin-dependent electronic structure resembles the theoretically expected Co2MnSi bulk band structure, with majority spin electronic states of both {\Delta}1 and {\Delta}5 symmetry. Furthermore we find an additional thermally-induced contribution in the minority channel, mirroring the {\Delta}1/{\Delta}5 asymmetry of the majority channel., Comment: To be submitted to Physical Review Letters

Published
2012

12. Density functional study of twisted graphene L10-FePd heterogeneous interface.

Author

Uemoto, Mitsuharu, Adachi, Hayato, Naganuma, Hiroshi, and Ono, Tomoya

Subjects
GRAPHENE, HONEYCOMB structures, STRUCTURAL optimization, BINDING energy, ATOMIC structure
Abstract

Graphene on L 1 0 -FePd(001), which has been experimentally studied in recent years, is a heterogeneous interface with a significant lattice symmetry mismatch between the honeycomb structure of graphene and tetragonal alloy surface. In this work, we report on the density functional study of its atomic-scale configurations, electronic and magnetic properties, and adsorption mechanism, which have not been well understood in previous experimental studies. We propose various atomic-scale models, including simple nontwisted and low-strain twisted interfaces, and analyze their energetical stability by performing structural optimizations using the van der Waals interactions of both DFT-D2 and optB86b-vdW functionals. The binding energy of the most stable structure reached E B = − 0.22 eV/atom for DFT-D2 (E B = − 0.19 eV/atom for optB86b-vdW). The calculated FePd-graphene spacing distance was approximately 2 Å, which successfully reproduced the experimental value. We also find out characteristic behaviors: the modulation of π -bands, the suppression of the site-dependence of adsorption energy, and the rise of moiré-like corrugated buckling. In addition, our atomic structure is expected to help build low-cost computational models for investigating the physical properties of L 1 0 alloys/two-dimensional interfaces. [ABSTRACT FROM AUTHOR]

Published
2022
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13. Prostate‐specific antigen follow‐up and management for patients undergoing holmium laser enucleation of the prostate.

Author

Kimura, Shingo, Katayama, Hiromichi, Ohara, Eiichiro, Aoki, Hiroshi, Shibuya, Rie, Naganuma, Hiroshi, Ishidoya, Shigeto, and Ito, Akihiro

Subjects
PROSTATE-specific antigen, SURGICAL enucleation, HOLMIUM, PROSTATE, WATCHFUL waiting
Abstract

Objectives: To investigate who needs a careful postoperative monitoring for prostate cancer (PCa) after holmium laser enucleation of the prostate (HoLEP). We examined characteristics and oncological outcomes of HoLEP‐related PCa. Methods: Patients who underwent HoLEP during 2002–2017 in a Japanese tertiary center were retrospectively analyzed. Patients were divided into non‐PCa, PCa with HoLEP specimen (PCa‐Ope), and PCa diagnosed during follow‐up (PCa‐Post). Outcomes of all HoLEP‐related PCa were monitored. Results: Of the total 758, 60 (7.9%) were diagnosed with PCa from resected specimen of HoLEP and 9 (1.2%) were diagnosed postoperatively. Preoperative prostate‐specific antigen (iPSA), postoperative PSA (pPSA), and PSA density were significantly higher in both PCa groups than those in non‐PCa group. While iPSA significantly correlated to prostate volume (PV), pPSA was not associated with PV. A receiver‐operating‐characteristics curve demonstrated that pPSA 1.2 ng/mL achieved the optimal cut‐off (AUC 0.95) for the incidence of PCa‐Post. In addition to the incidence of PCa and iPSA, lower enucleation efficiency (enucleated volume /PV) was significantly associated with pPSA >1.2 ng/mL. Among PCa‐Ope, 51 were Grade Group (GG) ≤2 and 42 were followed‐up with active surveillance, whereas 8 of 9 PCa‐Post were GG ≥3 and 2 progressed to death. Conclusions: Patients undergoing HoLEP are associated with some risk of potential PCa. While oncological outcomes were favorable among PCa‐Ope, postoperative PSA should be carefully monitored even if not diagnosed with PCa with HoLEP specimen. Enucleation efficiency should be also considered not to misread pPSA value. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Growth mechanism and domain structure study on epitaxial BiFeO3 film grown on (La0.3Sr0.7)(Al0.65Ta0.35)O3.

Author

Bae, In-Tae, Yasui, Shintaro, Ichinose, Tomohiro, Itoh, Mitsuru, Shiraishi, Takahisa, Kiguchi, Takanori, and Naganuma, Hiroshi

Subjects
TRANSMISSION electron microscopes, SCANNING electron microscopes, CRYSTAL orientation, TANTALUM, STRAIN energy, ELECTRON diffraction
Abstract

A BiFeO3 (BFO) film is epitaxially grown on an (La0.3Sr0.7)(Al0.65Ta0.35)O3 (LSAT) substrate to investigate the lattice mismatch effect on the domain structure and lattice strain status within the BFO film. Atomic resolution scanning transmission electron microscope image, selected area electron diffraction (SAED) patterns, and X-ray reciprocal space mapping (XRSM) data clearly reveal that the lattice strain originating from the lattice mismatch between BFO and LSAT is relaxed by causing misfit dislocations in the BFO film. The SAED and XRSM data indicate that the crystal structure of BFO film is rhombohedral with the space group R3c. In particular, XRSM data acquired along two different in-plane orientations reveal that the BFO layer consists of two different domains that were 90° off each other with respect to the surface normal orientation. An atomistic model based on the crystal orientation relation found by SAED and XRSM shows that (1) the ferroelectric polarization axes of both domains are 35.6° with respect to the BFO film surface and (2) the two domains are consistent with the so-called 71° (and/or 109°) ferroelectric domains reported previously. The lattice mismatch of ∼2.8% calculated based on the epitaxial relation is proposed to be too large to be stored as elastic strain energy within the BFO layer. [ABSTRACT FROM AUTHOR]

Published
2020
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29. Unveiling a Chemisorbed Crystallographically Heterogeneous Graphene/L10-FePd Interface with a Robust and Perpendicular Orbital Moment

Author

Naganuma, Hiroshi, primary, Nishijima, Masahiko, additional, Adachi, Hayato, additional, Uemoto, Mitsuharu, additional, Shinya, Hikari, additional, Yasui, Shintaro, additional, Morioka, Hitoshi, additional, Hirata, Akihiko, additional, Godel, Florian, additional, Martin, Marie-Blandine, additional, Dlubak, Bruno, additional, Seneor, Pierre, additional, and Amemiya, Kenta, additional

Published
2022
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34. Papillary Thyroid Carcinoma in Ukraine After Chernobyl and in Japan After Fukushima: Different Histopathological Scenarios

Author

Bogdanova, Tetiana I., primary, Saenko, Vladimir A., additional, Hashimoto, Yuko, additional, Hirokawa, Mitsuyoshi, additional, Zurnadzhy, Liudmyla Yu., additional, Hayashi, Toshitetsu, additional, Ito, Masahiro, additional, Iwadate, Manabu, additional, Mitsutake, Norisato, additional, Rogounovitch, Tatiana I., additional, Sakamoto, Atsuhiko, additional, Naganuma, Hiroshi, additional, Miyauchi, Akira, additional, Tronko, Mykola D., additional, Thomas, Geraldine, additional, Yamashita, Shunichi, additional, and Suzuki, Shinichi, additional

Published
2021
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38. Influence of Pb and La contents on the lattice configuration of La-substituted Pb(Zr,Ti)[O.sub.3] films fabricated by CSD method

Author

Shima, Hiromi, Nishidi, Ken, Funakubo, Hiroshi, Iijima, Takashi, Katoda, Takashi, Naganuma, Hiroshi, and Okamura, Soichiro

Subjects
Lanthanum -- Atomic properties, Lanthanum -- Electric properties, Lead alloys -- Structure, Lead alloys -- Electric properties, Titanium -- Electric properties, Zirconium -- Electric properties, Business, Electronics, Electronics and electrical industries
Abstract

The effect of Pb and La contents on the lattice configuration in La-substituted Pb([Zr.sub.0.65],[Ti.sub.0.35])[O.sub.3] (La-PZT) films is examined and La-PZT films with various La and Pb contents are prepared on Pt/Ti/Si[O.sub.2]/Si substrates by chemical solution deposition (CSD). The studies have shown that excess Pd has prevented the A-site substituent of La ions.

Published
2009

39. Ferroelectric and magnetic properties of multiferroic BiFe[O.sub.3]-based composite films

Author

Naganuma, Hiroshi, Okubo, Tomosato, Kamishima, Kenji, Kakizaki, Koichi, Hiratsuka, Nobuyuki, and Okamura, Soichiro

Subjects
Iron alloys -- Magnetic properties, Iron alloys -- Electric properties, Magnetic fields -- Analysis, Business, Electronics, Electronics and electrical industries
Abstract

The magnetic properties and ferroelectric properties of fabricated BiFe[O.sub.3]-based composite films are discussed. Results suggest the maximum remanent magnetization of approximately 20 emu/[cm.sup.3] and magnetic coercive field of 1.5 kOc.

Published
2008

40. Dependence of ferroelectric and magnetic properties on measuring temperatures for polycrystalline BiFe[O.sub.3] films

Author

Naganuma, Hiroshi, Inoue, Yosuke, and Okamura, Soichiro

Subjects
Bismuth -- Electric properties, Bismuth -- Magnetic properties, Polarization (Electricity) -- Analysis, X-rays -- Diffraction, X-rays -- Usage, Business, Electronics, Electronics and electrical industries
Abstract

A chemical solution deposition (CSD) method was used for the fabrication of a multiferroic BiFe[O.sub.3] film on a Pt/Ti/Si[O.sub.2]/Si(100) substrate. Findings reveal the saturation magnetization of less than 1 emu/[cm.sup.3] at room temperature.

Published
2008

46. Introduction of histological classification and cytology reporting format of the Japanese General Rules for the Description of Thyroid Cancer with a special focus on the differences of the WHO Histological Classification and The Bethesda System of Thyroid Cytology

Author

Sakamoto, Atsuhiko, primary, Hirokawa, Mitsuyoshi, additional, Ito, Masahiro, additional, Naganuma, Hiroshi, additional, Suzuki, Osamu, additional, Hashimoto, Yuko, additional, Suzuki, Shinichi, additional, and Shimura, Hiroki, additional

Published
2021
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50. Scalability of Quad Interface p-MTJ for 1X nm STT-MRAM With 10-ns Low Power Write Operation, 10 Years Retention and Endurance > 10¹¹

Author

Miura, Sadahiko, primary, Nishioka, Koichi, additional, Naganuma, Hiroshi, additional, Nguyen, T. V. A., additional, Honjo, Hiroaki, additional, Ikeda, Shoji, additional, Watanabe, Toshinari, additional, Inoue, Hirofumi, additional, Niwa, Masaaki, additional, Tanigawa, Takaho, additional, Noguchi, Yasuo, additional, Yoshizuka, Toru, additional, Yasuhira, Mitsuo, additional, and Endoh, Tetsuo, additional

Published
2020
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