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Your search keyword '"Chen, Huanjian"' showing total 24 results
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24 results on '"Chen, Huanjian"'

1. Mimicking synaptic plasticity with wedged Pt/Co/Pt spin-orbit torque device

Author

Chen, Shiwei, Rahul, Mishra, Chen, Huanjian, Yang, Hyunsoo, and Qiu, Xuepeng

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

We fabricated a wedge-shaped Pt/Co/Pt device with perpendicular magnetic anisotropy and manifested that the Co magnetization can be solely switched by spin-orbit torque without any magnetic field. Similar to the synaptic weight, we observed that the state of Co magnetization (presented by the anomalous Hall resistance RH) of the wedged Pt/Co/Pt device can be tuned continuously with a large number of nonvolatile levels by applied pulse currents. Furthermore, we studied the synaptic plasticity of the wedged Pt/Co/Pt device, including the excitatory postsynaptic potentials or inhibitory postsynaptic potentials and spiking-time-dependent plasticity. The work elucidates the promise of the wedged Pt/Co/Pt device as a candidate for a new type of artificial synaptic device that is induced by a spin current and paves a substantial pathway toward the combination of spintronics and synaptic devices.

Published
2024
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4. Angular characterization of spin-orbit torque and thermoelectric effects

Author

Yang, Huanglin, Chen, Huanjian, Tang, Meng, Hu, Shuai, and Qiu, Xuepeng

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

Arising from the interplay between charge, spin and orbital of electrons, spin-orbit torque (SOT) has attracted immense interest in the past decade. Despite vast progress, the existing quantification methods of SOT still have their respective restrictions on the magnetic anisotropy, the entanglement between SOT effective fields, and the artifacts from the thermal gradient and the planar Hall effect, etc. Thus, accurately characterizing SOT across diverse samples remains as a critical need. In this work, with the aim of removing the afore-mentioned restrictions, thus enabling the universal SOT quantification, we report the characterization of the sign and amplitude of SOT by angular measurements. We first validate the applicability of our angular characterization in a perpendicularly magnetized Pt/Co-Ni heterostructure by showing excellent agreements to the results of conventional quantification methods. Remarkably, the thermoelectric effects, i.e., the anomalous Nernst effect (ANE) arising from the temperature gradient can be self-consistently disentangled and quantified from the field dependence of the angular characterization. The superiority of this angular characterization has been further demonstrated in a Cu/CoTb/Cu sample with large ANE but negligible SOT, and in a Pt/Co-Ni sample with weak perpendicular magnetic anisotropy (PMA), for which the conventional quantification methods are not applicable and even yield fatal error. By providing a comprehensive and versatile way to characterize SOT and thermoelectric effects in diverse heterostructures, our results pave the important foundation for the spin-orbitronic study as well as the interdisciplinary research of thermal spintronic.

Published
2019

7. Integration and evaluation of SLAM-based backpack mobile mapping system

Author

Yu Peidong, Wang Mengke, and Chen Huanjian

Subjects
Environmental sciences, GE1-350
Abstract

Mobile mapping is an efficient technology to acquire spatial data of the environment. As a supplement of vehicle-borne and air-borne methods, Backpack mobile mapping system (MMS) has a wide application prospect in indoor and underground space. High-precision positioning and attitude determination are the key to MMS. Usually, GNSS/INS integrated navigation system provides reliable pose information. However, in the GNSS-denied environments, there is no effective long-term positioning method. With the development of simultaneous localization and mapping (SLAM) algorithm, it provides a new solution for indoor mobile mapping. This paper develops a portable backpack mobile mapping system, which integrates multi-sensor such as LiDAR, IMU, GNSS and panoramic camera. The 3D laser SLAM algorithm is applied to the mobile mapping to realize the acquisition of geographic information data in various complex environments. The experimental results in typical indoor and outdoor scenes show that the system can achieve high-precision and efficient acquisition of 3D information, and the relative precision of point cloud is 2~4cm, which meets the requirements of scene mapping and reconstruction.

Published
2020
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10. Investigation of micro/nano formation mechanism of porous graphene induced by CO2laser processing on polyimide film

Author

Bai, Shigen, Tang, Yong, Lin, Lihui, Ruan, Luoyuan, Song, Ruixuan, Chen, Huanjian, Du, Yu, Lin, Hongyu, Shan, Yufeng, and Tang, Yanru

Abstract

Laser-induced graphene (LIG) prepared from polyimide (PI) films via a facile CO2laser-writing technique, has garnered considerable application prospects in micro-supercapacitors, intelligent sensors, and flexible electronics. To achieve the controllable fabrication of LIG, it is essential to understand the micro/nano formation mechanism of LIG. Herein, we explored the micromorphology evolution law, Raman characteristics, primary elements content distribution, and main electron peaks variation of LIG. The experimental results reveal that i) the irradiation region presents a typical crater-like structure accompanied by abundant three-dimensional networks; ii) the low laser power of 3.89 W (9.9 %) is conducive to the formation of high-quality LIG with a small ID/IG; iii) the excessive laser power over 4.15 W (>10 %) provokes element recombination between unstable carbon bonds (C–/C=) and oxygen in the air to reduce the relative carbon content; iv) too high temperature destroys the stability of the graphene structure, resulting in cracks, holes, and defects. Based on the abovementioned findings, we concluded the thermal decomposition process of PI and the local reaction mechanism of LIG. Finally, we realized the controllable fabrication of high-performance LIG with an ultra-small ID/IG(0.3), an extremely high carbon content (94.49 %), and the prominent wetting affinity along with permeability for a water-based electrolyte.

Published
2022
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16. Formation and magnetic-field stability of magnetic dipole skyrmions and bubbles in a ferrimagnet

Author

Zhang, Junwei, primary, Zhang, Xiaomin, additional, Chen, Huanjian, additional, Guang, Yao, additional, Zeng, Xue, additional, Yu, Guoqiang, additional, Zhang, Senfu, additional, Liu, Yizhou, additional, Feng, Jiafeng, additional, Zhao, Yuelei, additional, Zhou, Yan, additional, Qiu, Xuepeng, additional, Han, Xiufeng, additional, Peng, Yong, additional, and Zhang, Xixiang, additional

Published
2020
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24. Anomalous Magnetic Properties of Tb/Cr/Ta Film Above Curie Temperature.

Author

Jiao, Zhiwei, Yang, Yi, Chen, Huanjian, Wang, Jianfeng, Zhou, Yun, and Jiang, Weidi

Subjects
MAGNETIC properties, CURIE temperature, TERBIUM, CHROMIUM films, TANTALUM films, SPUTTERING (Physics), MAGNETIC materials
Abstract

Magnetic properties of Tb/Cr/Ta film, for which the Curie temperature (TC) of ferromagnetic Tb is much lower than the Néel temperature (TN) of antiferromagnetic Cr, have been investigated. An apparent TC beyond that of pure Tb film was observed. The origin of this enhancement of TC is due to a magnetic proximity effect between Tb and Cr. In the temperature range of TC < T < TN, the coercivity HC and exchange bias field HE of the film show unusual temperature dependence. As the temperature increases from TC to TN, HE still exists and its sign changes from negative to positive with a low cooling field. At T > TN, HE turns to vanish. The coercivity HC exists not only at TC < T < TN, but also above TN. These unusual results can be discussed in terms of the pinned uncompensated spins and rotatable uncompensated spins in the interface. Additionally, the magnitude of the cooling field has a strong effect on HE, which probably results from the competition between the exchange coupling energy at the Tb/Cr interface and the Zeeman energy of the Cr surface magnetization. [ABSTRACT FROM AUTHOR]

Published
2019
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