No. | Presentation Title | Name, Affiliation |
---|---|---|
I-01 (Invited) |
Development of the Highest Performance Dy-free Nd-Fe-B sintered Magnet | Mr. Yasuhiro Une Daido Steel Co., Ltd. |
I-02 (Invited) |
Heavy-Rare-Earth-Free Hot-deformed Nd-Fe-B Magnets for Traction Motors | Dr. Keiko Hioki Daido Corporate Research & Development Center, Daido Steel Co., Ltd. |
I-03 | Development of ultimate Nd-Fe-B based permanent magnet by grain boundary and interface engineering | Dr. Taisuke Sasaki NIMS |
I-04 | Development of high coercivity Nd-Fe-B based permanent magnets with improved thermal stability by microstructure modifications | Dr. H. Sepehri-Amin NIMS |
I-05 | Discussion on Nd composition in grain boundary phase based on phase-field approaches - What determines the composition of grain boundary phase ? - |
Prof. Toshiyuki Koyama Nagoya University |
I-06 | Phase-field simulation of Dy-shell formation in Nd-Fe-B hard magnets | Mr. Daiki Kato Department of Materials Design Innovation Engineering, Graduate School of Engineering, Nagoya University |
I-07 | Development of high performance Ce-substituted hot-deformed Nd-Fe-B magnets | Dr. Xin Tang NIMS |
I-08 | Neutron powder diffraction on rare earth permanent magnets (Nd1-yCexLay)2Fe14B | Dr. Takafumi Hawai High energy accelerator research organization (KEK) |
I-09 | Inelastic neutron scattering study for RE2Fe14B and REFe11Ti (RE = Y, Nd) | Dr. Takafumi Hawai High energy accelerator research organization (KEK) |
I-10 | Phase analysis of Nd-Fe-B sintered magnet during heating process studied by X-ray diffraction | Dr. Hiroyuki Okazaki National Institutes for Quantum and Radiological Science and Technology(QST) |
I-11 | Heat Capacity Measurement of (NdxDy1-x)2Fe14B alloys | Dr. Ikuo Ohnuma NIMS |
I-12 | Theoretical Revisit of the Magnetic Properties in the 2-14-1 Type Compounds | Dr. Takuya Yoshioka Department of Applied Physics, Tohoku University |
I-13 | Role of typical elements in Nd2Fe14X (X = B, C, N, O, F) | Associate Professor Yasutomi Tatetsu Meio University |
I-14 | Ab initio trail toward the champion magnet Nd2Fe14B | Dr. Munehisa Matsumoto Institute for Solid State Physics, The University of Tokyo |
I-15 | First-principles study on searching for the stable subphase structures in Ga-doped Nd-Fe-B sintered magnets | Associate Professor Yasutomi Tatetsu Meio University |
I-16 | First-principles structural and magnetic analyses of amorphous Nd-Fe alloys | Dr. Asako Terasawa Tokyo Institute of Technology |
I-17 | Detection of single magnetization reversal events in Nd-Fe-B hot-deformed magnet | Prof. Satoshi Okamoto Tohoku University |
I-18 | Applications of Soft X-ray Magnetic Circular Dichroism Spectromicroscope to Analyze Local Magnetism | Dr. Kentaro Toyoki Japan Synchrotron Radiation Research Institute (JASRI) |
I-19 | Study on magnetization reversal process of a Ga-doped Nd-Fe-B sintered magnet using FORC analysis | Prof. Satoshi Okamoto Tohoku University |
I-20 | Three-Dimensional Visualization of Magnetic Domain Structure Using Scanning Hard X-ray Microtomography | Dr. Motohiro Suzuki Japan Synchrotron Radiation Research Institute (JASRI) |
I-21 | Free energy landscape of magnetization reversal in permanent magnets | Dr. Yuta Toga NIMS |
I-22 | Dynamical features of an atomistic model for Nd-Fe-B permanent magnets | Dr. Masamichi Nishino NIMS |
I-23 | First-principles based calculation of magnetic properties at finite temperature | Dr. Shotaro Doi Institute for Solid State Physics (ISSP), The University of Tokyo |
I-24 | Theoretical study of Gilbert damping in Rare-Earth Permanent Magnets | Mr. Fumiya Saito Department of Applied Physics, Tohoku University |
I-25 | Magnetization Dynamics Study of High PMA thin films by Time-resolved MOKE Microscopy | Dr. Ruma Mandal NIMS |
I-26 | Constructing Macro Spin Model from Atomistic Spin Model | Dr. Taichi Hinokihara The University of Tokyo |
I-27 | First-principles study of chemical substitution effects in NdFe12 and NdFe12N | Dr. Takashi Miyake AIST |
I-28 | Theoretical Study on Finite-Temperature Magnetic Properties in Sm(Fe1-xMx) systems | Assoc. Prof. Hiroki Tsuchiura Tohoku University |
I-29 | Thermodynamic, Electronic and Dynamic Stability Study of Potential New Permanent Magnet from First-principles Calculations | Dr. Arkapol Saengdeejing Tohoku University |
I-30 | Crystallographic and Micromagnetic Properties of Sm(Fe0.8Co0.2)12-xTix Micropowders | Prof. TRINH Thang Thuy Institute for Chemical Research, Kyoto University |
I-31 | Chemical synthesis and magnetic properties of Sm(Fe1-xCox)12-yTiy particles | Dr. Jungryang KIM Institute for Chemical Research of Kyoto University |
I-32 | Microstructure and magnetic properties of highly textured Sm(Fe0.8Co0.2)12 thin films with ThMn12 structure | Dr. Daisuke Ogawa NIMS |
I-33 | SmFe12-based permanent magnets, intrinsic magnetic properties and toward development of bulk high-performance permanent magnet | Dr. Imants Dirba NIMS |
I-34 | Search for magnet compounds using Bayesian optimization | Dr. Taro Fukazawa AIST |
I-35 | Preparation of high performance Sm-Fe-N bulk magnets | Dr. Masashi Matsuura Tohoku University |
I-36 (Invited) |
High-Performance Ferrite Magnets without Irreversible Low Temperature Demagnetization | Mr. Junichi Nagaoka TDK Corporation |
I-37 | Formation of L10-ordered FeNi Films by Extracting Nitrogen from FeNiN Films | Dr. Keita Ito Tohoku University |
I-38 | Crystal structure simulation by assimilating incomplete powder diffraction data: First application to magnetic material | Mr. Seiji Yoshikawa Department of Physics, The University of Tokyo |
No. | Presentation Title | Name, Affiliation |
---|---|---|
II-01 | Large CPP-GMR effect in dual-spacer Co2Fe0.4Mn0.6Si/AgMg nanojunctions | Dr. Zhenchao Wen Tohoku University |
II-02 | Heusler Alloy-based CPP-GMR Junctions with an L12-Ag3Mg Ordered Alloy Spacer | Dr. Takahide Kubota Tohoku University |
II-03 | Development of FePt-based granular film for HAMR media | Dr. Yukiko K. Takahashi NIMS |
II-04 | Next generation magnetic recording technology -- FePt based heat assisted magnetic recording |
Dr. Jian Wang NIMS, ICYS |
II-05 | Microwave-assisted switching behavior of CoCrPt based granular media | Prof. Satoshi Okamoto Tohoku University |
II-06 | Modification of grain density in the FePt-C granular films | Dr. Ippei Suzuki NIMS |
II-07 | Development of spin-torque-oscillator for microwave-assisted-magnetic-recording | Dr. H. Sepehri-Amin NIMS |
II-08 | Evaluation of Structural Order in Magnetic Films by Anomalous X-ray Diffraction using Synchrotron X-rays | Dr. Hiroo Tajiri Japan Synchrotron Radiation Research Institute |
II-09 | Inducing out-of-plane precession of magnetization for microwave assisted magnetic recording using an oscillating spin polarizer in spin torque oscillator | Dr. Weinan Zhou NIMS |
No. | Presentation Title | Name, Affiliation |
---|---|---|
III-01 | Reduction of write current with ultra-thin Spin-Hall-effect electrode in Voltage-Control Spintronics Memory (VoCSM) | Ms. Altansargai Buyandalai Toshiba Corporation |
III-02 | Thermally Induced Write Errors in Voltage-Driven Magnetization Switching | Dr. Tatsuya Yamamoto AIST |
III-03 | Pulse shape control of write error rate of a voltage-torque MRAM | Dr. Hiroshi Imamura AIST |
III-04 | Materials engineering for voltage-controlled magnetic anisotropy effect | Dr. Takayuki Nozaki AIST |
III-05 | Voltage controlled perpendicular magnetic anisotropy in quantum wells | Dr. Qingyi Xiang NIMS |
III-06 | Perpendicular magnetic anisotropy in W-doped epitaxial Fe/MgO heterostructures | Mr. Yuki Iida NIMS |
III-07 | Analysis of lattice distortion of L10-MnGa ultrathin films grown on CoGa | Mr. Kazuma Kunimatsu Tohoku University |
III-08 | Tunneling anisotropic magnetoresistance (TAMR) in spin-dependent Fe quantum well | Dr. Muftah Al-Mahdawi Center for Spintronics Research Network, Tohoku University |
III-09 | Spin-orbit torque switching in in-plane nanomagnets characterized by planar Hall effect | Dr. Butsurin Jinnai Tohoku University |
III-10 | Spin-orbit torque switching in perpendicular-magnetized Co/Pt multilayers | Dr. Butsurin Jinnai Tohoku University |
III-11 | Equiatomic quaternary CoFeMnSi Heusler alloy for spintronic applications | Dr. Lakhan Bainsla AIMR, Tohoku University |
III-12 | Development of Mn-based nano-layer films toward spintronic applications | Dr. Kazuya Suzuki WPI-AIMR, Tohoku University |
III-13 | Fabrication and Magnetoresistance of Fully Epitaxial Magnetic Tunnel Junctions with a Rock-Salt Type ZnO/MgO bilayer tunnel barrier | Mr. Shintaro Kon Spintronics Research Center, National Institute of Advanced Industrial Science and Technology, Chiba Institute of Technology |
III-14 | Tunnel magnetoresitstance of equiatomic quaternary CoFeCrAl Heusler alloy films | Dr. Tomoki Tsuchiya Tohoku University |
III-15 | High Performance CoFeB-MgO Magnetic Tunnel Junctions for Nonvolatile VLSI | Prof. Shoji Ikeda Tohoku University |
III-16 | Perpendicular Magnetic Anisotropy in Epitaxial Fe80Al20/MgAl2O4 Heterostructures | Dr. Thomas Scheike NIMS |
III-17 (Invited) |
Reactive deposition technology for a uniform spinel MgAl2O4 barrier toward high quality magnetic tunnel junctions | Mr. Katsuyuki Nakada TDK Corporation |
III-18 | Fabrication of an MgAl2O4-based Fully-Epitaxial Magnetic Tunnel Junction on an 8" Si Wafer | Dr. Kay Yakushiji AIST |
III-19 | Magneto-static coupling in magnetic tunnel junctions | Dr. Hitoshi Kubota AIST |
III-20 | X-ray absorption spectroscopy for voltage-controlled magnetic anisotropy effect | Prof. Yoshishige Suzuki Graduate School of Engineering Science, Osaka University |
III-21 | Manipulation of antiferromagnetic spin using tunable parasitic magnetization in doped Cr2O3 film | Dr. Tomohiro Nozaki AIST |
III-22 | Magnetoelectric control of antiferromagnetic domain state | Dr. Yu Shiratsuchi Osaka University |
III-23 | Preparation and characterization of a novel heterostructure of graphene/Co2Fe(Ge0.5Ga0.5)for high-performance spintronic device application | Dr. Songtian Li National Institutes for Quantum and Radiological Science and Technology, QST |
III-24 | Magnetic tunnel junctions with semiconductor Cu(In,Ga)Se2 spacers | Dr. Shinya Kasai NIMS |
III-25 | Theoretical study for tunnel magnetoresistance and magnetic anisotropy in magnetic tunnel junctions with semiconductor CuIn1-xGaxSe2 spacers | Dr. Keisuke Masuda NIMS |
III-26 | A first-principles study on perpendicular magnetic anisotropy in W-inserted Fe/MgO and Fe/MgAl2O4 interfaces | Dr. Yoshio Miura NIMS |
III-27 | Huge voltage-controlled magnetic anisotropy effect of monoatomic 5d-transition-metal layer inserted into MgO/Fe interface | Dr. Masahito Tsujikawa Research Institute of Electrical Communication, Tohoku University |
III-28 | Anomalous field-like torque on Py layer via Edelstein effect at W/Pt interface | Dr. Shutaro Karube Tohoku University |
III-29 | Observation of strong spin orbit interaction in Cu by doping nitrogen impurities | Mr. Ryoto Enoki Tohoku University |
III-30 | Spin Hall effect from hybridized 3d-4p orbitals | Dr. Yong Chang Lau Department of Physics, The University of Tokyo / NIMS(Guest researcher) |
III-31 | Electronic Tunneling through Epitaxial CoxFe3-xO4+δ (001) films with Perpendicular Magnetic Anisotropy | Prof. Ko Mibu Nagoya Institute of Technology |
No. | Presentation Title | Name, Affiliation |
---|---|---|
IV-01 | Spin-current induced synchronization between spin-Hall nano-oscillators | Dr. Tomohiro Taniguchi AIST |
IV-02 | Radio-frequency amplification induced by Joule heating induced magnetization dynamics | Prof. Yoshishige Suzuki Graduate school of Engineering Science, Osaka University |
IV-03 | Large emission power in vortex spin torque oscillator | Dr. Sumito Tsunegi AIST |
IV-04 | Tunnel magnetoresistance properties of magnetic tunnel junctions sputtered with the off-axis cathode | Dr. Tomohiro Ichinose AIMR, Tohoku University |
IV-05 | Tuning of magnetic anisotropy in cobalt ferrite thin films by epitaxial strain | Mr. Hiroshige Onoda Department of Applied Physics, University of Tsukuba |
IV-06 | Microscopic Origin of Interfacial Perpendicular Magnetic Anisotropy Studied by X-ray Magnetic Circular Dichroism | Prof. Jun Okabayashi The University of Tokyo |
IV-07 | Potential spintronic devices based on anti-perovskite transition metal nitrides | Dr. Shinji Isogami NIMS |
IV-08 | Room Temperature Measurement of Bio-Magnetic Field using Tunnel Magneto-Resistance Sensor | Dr. Kosuke Fujiwara Department of Applied Physics, Tohoku University |
IV-09 | Controlling the all-in-all-out magnetic domains in pyrochlore iridate thin films and heterostructures | Dr. Yusuke Kozuka NIMS |
Poster Panel Size
We sent you an acceptance notice by email with your presentation ID number on October 2nd. If you haven't receive it, please let us know.
Please prepare your poster within the size of 90cm wide and 210cm height. Panel and pushpin will be provided to each presenter. Please have your poster up from 9:30 and take it down before 18:15. Any posters not removed by 18:15 will be discarded by management.