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Your search keyword '"Otani, Yoshichika"' showing total 630 results
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630 results on '"Otani, Yoshichika"'

101. Selective Data Writing in IrMn-Based Perpendicular Magnetic Tunnel Junction Array Through Voltage-Gated Spin-Orbit Torque

Author

Li, Weixiang, Liu, Zhaochun, Peng, Shouzhong, Lu, Jiaqi, Liu, Jiahao, Li, Xinyuan, Lu, Shiyang, Otani, Yoshichika, and Zhao, Weisheng

Abstract

The interplay of spin-orbit torque (SOT) and voltage-controlled magnetic anisotropy (VCMA) has great potential to be the next-generation writing method for low-power, fast-speed, and high-density memory applications. In this letter, we first experimentally demonstrate field-free voltage-gated SOT switching in IrMn-based perpendicular magnetic tunnel junctions (MTJs) with a diameter of 80 nm. Then we fabricate a memory array that integrates multiple MTJs on a shared IrMn strip. When a gate voltage of 0.8 V is applied to an MTJ in the array, the SOT critical current density decreases by 70%, resulting in a substantial 91% reduction in total power consumption. Through this voltage-gated SOT switching, selective data writing in the MTJ array is accomplished. Moreover, the endurance of more than ${1} \times {10} ^{{12}}$ and the write error rate below ${8} \times {10} ^{-{5}}$ are achieved. These findings demonstrate the high performance of voltage-gated SOT devices and contribute to its practical application in magnetic random-access memory.

Published
2024
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104. Optical-acoustic excitation of broadband terahertz antiferromagnetic spin waves

Author

Zhang, Jinglin, primary, Ge, Xu, additional, Yu, Shaojie, additional, Yu, Lu, additional, Dong, Diandian, additional, Song, Jianhui, additional, Chen, Yangyi, additional, Li, JiaPu, additional, Luo, Wei, additional, Liang, Shiheng, additional, Otani, Yoshichika, additional, You, Long, additional, Yang, Xiaofei, additional, and Zhang, Yue, additional

Published
2022
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106. Highly efficient current-driven magnetic octupole domain-wall dynamics

Author

Wu, Mingxing, primary, Chen, Taishi, additional, Nomoto, Takuya, additional, Isshiki, Hironari, additional, Nakatani, Yoshinobu, additional, Higo, Tomoya, additional, Tomita, Takahiro, additional, Kondou, Kouta, additional, Arita, Ryotaro, additional, Nakatsuji, Satoru, additional, and Otani, YoshiChika, additional

Published
2022
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108. Bias‐Field Tunable Magnon‐Magnon Coupling in Ni80Fe20 Nanocross Array.

Author

Pal, Pratap Kumar, Majumder, Sudip, Otani, YoshiChika, and Barman, Anjan

Subjects
SPIN waves, DYNAMICAL systems, MAGNETIC fields, INFORMATION processing
Abstract

Hybrid dynamical systems have gained a huge momentum not only due to their exotic physical properties but also their compelling engineering standpoint, particularly owing to their potential for coherent information processing. Remarkably, magnon–magnon coupling is experimentally identified in Ni80Fe20 nanocross array with the number of spins reaching a very low value of ≈1012. Moreover, the coupling strength is effectively tuned via different external parameters, viz. microwave excitation power and the bias‐field orientation. Extensive simulations reveal that both the static and dynamical dipolar coupling contribute to the observed anticrossing phenomenon. Simultaneously, mode‐softening of spin wave tunable by subtle changes of bias‐field orientation is also observed. The findings can greatly enrich various hybrid phenomena with a magnonic platform. [ABSTRACT FROM AUTHOR]

Published
2023
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113. Electric field induced parametric excitation of exchange magnons in a CoFeB/MgO junction

Author

Deka, Angshuman, Rana, Bivas, Anami, Ryo, Miura, Katsuya, Takahashi, Hiromasa, Otani, YoshiChika, Fukuma, Yasuhiro, Deka, Angshuman, Rana, Bivas, Anami, Ryo, Miura, Katsuya, Takahashi, Hiromasa, Otani, YoshiChika, and Fukuma, Yasuhiro

Abstract

Inspired by the success of field-effect transistors in electronics, electric field controlled magnetization dynamics has emerged as an important integrant in low-power spintronic devices. Here, we demonstrate electric field induced parametric excitation for CoFeB/MgO junctions by using interfacial in-plane magnetic anisotropy (IMA). When the IMA and the external magnetic field are parallel to each other, magnons are efficiently excited by electric field induced parametric resonance. The corresponding wavelengths are estimated to be tuned down to exchange interaction length scales by changing the input power and frequency of the applied voltage. A generalized phenomenological model is developed to explain the underlying role of the electric field torque. Electric field control of IMA is shown to be the origin for excitation of both uniform and parametric resonance modes in the in-plane magnetized sample, a crucial element for purely electric field induced magnetization dynamics. Electric field excitation of exchange magnons, with no Joule heating, offers a good opportunity for developing nanoscale magnonic devices and exploring various nonlinear dynamics in nanomagnetic systems.

Published
2022

118. Efficient and controllable magnetization switching induced by intermixing-enhanced bulk spin–orbit torque in ferromagnetic multilayers

Author

Zhang, Kun, primary, Chen, Lei, additional, Zhang, Yue, additional, Hong, Bin, additional, He, Yu, additional, Lin, Kelian, additional, Zhang, Zhizhong, additional, Zheng, Zhenyi, additional, Feng, Xueqiang, additional, Zhang, Youguang, additional, Otani, Yoshichika, additional, and Zhao, Weisheng, additional

Published
2022
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129. Thickness‐Dependent Reconfigurable Spin‐Wave Dynamics in Ni80Fe20 Nanostripe Arrays.

Author

Pal, Pratap Kumar, Sahoo, Sourav, Dutta, Koustuv, Barman, Anjan, Barman, Saswati, and Otani, YoshiChika

Subjects
SPIN waves, MAGNETIC fields, MAGNETIC flux density, MAGNETICS, MAGNETIC storage, MAGNETIC properties
Abstract

Ferromagnetic nanostripes have gained massive attention due to their intriguing magnetic properties associated with dimensional confinements and shape anisotropy leading toward potential applications in magnetic storage, memory, and spin‐wave‐based devices. Consequently, reconfiguration of their static and dynamic magnetic properties by the geometric parameters and external field is imperative. Here, a combined experimental and numerical study of the reconfigurable spin‐wave dynamics in arrays of ferromagnetic nanostripes by the stripe thickness and external magnetic field strength and orientation is presented. Different uniform, localized, and standing spin waves in the nanostripes and their monotonic and nonmonotonic variation, including mode merging with these parameters, are observed. The observed variations are interpreted with the aid of simulated spin configurations, magnetostatic field maps, and spin‐wave mode profiles. Further numerical study reveals anisotropic spin‐wave propagation in nanostripes for different thicknesses and in different bias‐field geometry opening potential applications in magnonic circuit components such as reconfigurable magnonic waveguides and omnidirectional spin‐wave emitters. [ABSTRACT FROM AUTHOR]

Published
2022
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130. Magneto-optical and spin-transfer switching properties of current-perpendicular-to plane spin valves with perpendicular magnetic anisotropy

Author

Aoshima, Ken-ichi, Funabashi, Nobuhiko, Machida, Kenji, Miyamoto, Yasuyoshi, Kawamura, Norikazu, Kuga, Kiyoshi, Shimidzu, Naoki, Kimura, Takashi, Otani, Yoshichika, and Sato, Fumio

Subjects
Anisotropy -- Analysis, Magneto-optical devices -- Evaluation, Business, Electronics, Electronics and electrical industries
Abstract

We evaluated the magneto-optical properties of spin-valve (SV) stacks with perpendicular magnets comprised of a Gd-Fe (4-30 nm) free layer and a Tb-Fe-Co/CoFe pinned layer, and the spin-transfer switching properties of current-perpendicular-to-plane (CPP) SVs with the perpendicular magnets. The Gd-Fe free layer had polar Kerr rotation [[theta].sub.k] of 0.12[degrees] at a thickness of 10 nm. The [[theta].sub.k] reduced with a decrease in GdFe thickness and the sign of [[theta].sub.k] switched from positive to negative at a Gd-Fe thickness of 6 nm or thinner. Coercivity (He) was maximum and saturation magnetization (Ms) was minimum at a thickness of 8 nm. These phenomena may be explained by an inhomogeneous Gd-Fe composition. The CPP spin valves with the Gd-Fe (10 nm) free layer had a magneto-resistance (MR) of 0.038%. The free layer of a CPP SV device was switched by a pulsed current, which exhibited intrinsic switching current densities of [J.sub.co_p-AP] = -3.3 x [10.sup.7] A/[cm.sup.2] and [J.sub,co_AP-P] = 4.3 x [10.sup.7] A/[cm.sup.2] with a thermal stability of 75, which is above the required value of 40. Perpendicular magnets are very useful for obtaining large magneto-optical signals from nano-magnets driven by spin-transfer switching. Index Terms--Current-perpendicular-to-plane spin valve, perpendicular magnetic anisotropy, spin transfer switching, spin valves.

Published
2008

131. Voltage controlled on-demand magnonic nanochannels

Author

Choudhury, Samiran, Chaurasiya, Avinash Kumar, Mondal, Amrit Kumar, Rana, Bivas, Miura, Katsuya, Takahashi, Hiromasa, Otani, YoshiChika, and Barman, Anjan

Subjects
Materials science, Band gap, Plane wave, 02 engineering and technology, 01 natural sciences, Physics::Fluid Dynamics, Condensed Matter::Materials Science, Spin wave, Electric field, 0103 physical sciences, Dispersion (optics), 010306 general physics, Research Articles, Quantitative Biology::Biomolecules, Multidisciplinary, business.industry, Physics, SciAdv r-articles, Heterojunction, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Condensed Matter Physics, 021001 nanoscience & nanotechnology, Brillouin zone, Optoelectronics, Condensed Matter::Strongly Correlated Electrons, 0210 nano-technology, business, Research Article, Voltage
Abstract

On-demand magnonic nanochannels are achieved by modulation of voltage-controlled magnetic anisotropy in CoFeB/MgO heterostructure., Development of energy-efficient on-demand magnonic nanochannels (MNCs) can revolutionize on-chip data communication and processing. We have developed a dynamic MNC array by periodically tailoring perpendicular magnetic anisotropy using the electric field. Brillouin light scattering spectroscopy is used to probe the spin wave (SW) dispersion of MNCs formed by applying a static electric field at the CoFeB/MgO interface through the one-dimensional stripe-like array of indium tin oxide electrodes placed on top of Ta/CoFeB/MgO/Al2O3 heterostructures. Magnonic bands, consisting of two SW frequency modes, appear with a bandgap under the application of moderate gate voltage, which can be switched off by withdrawing the voltage. The experimental results are reproduced by plane wave method–based numerical calculations, and simulated SW mode profiles show propagating SWs through nanochannels with different magnetic properties. The anticrossing between these two modes gives rise to the observed magnonic bandgap.

Published
2020
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150. Electrical manipulation of a topological antiferromagnetic state

Author

Tsai, Hanshen, primary, Higo, Tomoya, additional, Kondou, Kouta, additional, Nomoto, Takuya, additional, Sakai, Akito, additional, Kobayashi, Ayuko, additional, Nakano, Takafumi, additional, Yakushiji, Kay, additional, Arita, Ryotaro, additional, Miwa, Shinji, additional, Otani, Yoshichika, additional, and Nakatsuji, Satoru, additional

Published
2020
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