M07 磁学国家重点实验室 M07 组Institute of Physics, Chinese Academy of Sciences
Lorentz TEM · Topological Spin Textures

State Key Laboratory of Magnetism

赵云驰简介

Researcher profile

赵云驰简介

简介

本科毕业于北京科技大学材料物理系;
2019年于中国科学院物理研究所获得博士学位;
2019年-2025年在中国科学院物理研究所从事博士后研究,其间入选中国科学院特别研究助理资助项目;
2025年8月加入中国科学院物理研究所磁学国家重点实验室M07组,任副研究员。

主要研究方向

基于超高真空分子束外延技术 (MBE) 及深紫外激光-光发射电子显微镜 (DUV-PEEM) 实现新型拓扑/铁磁/反铁磁薄膜材料的设计制备、精确表征及关键特性调控,探索磁性薄膜中的自旋轨道耦合相关物理效应及其面向低功耗逻辑与存储器件的应用。

过去的主要工作及获得的成果

长期从事磁性薄膜材料及自旋电子学方向的研究,近期的工作聚焦新型磁性薄膜材料的设计与高质量制备,利用晶体及界面工程有效调控自旋相关特性,开发高能效自旋电子学器件。以第一作者/通讯作者身份在 Advanced Materials、Nature Communications、Advanced Functional Materials、Physical Review B、Ultramicroscopy、The Journal of Physical Chemistry Letters 等国际知名学术期刊发表论文16篇,获得专利授权2项。

担任 Advanced Materials、Nature Communications、Small、Journal of Magnetism and Magnetic Materials、Chinese PhysicsB 等期刊审稿人。

主持国家自然基金委面上基金项目及青年基金项目,以骨干成员身份参与国家重点研发计划及基金委重点项目。

代表性论文及专利

(*通讯作者,#共同第一作者)

[1] Field-free perpendicular magnetization switching through topological surface state in type-II Dirac semimetal Pt3Sn.
Y. C. Zhao#, *, Y. Zhang#, J. Qi, Y. Z. Zhao, H. Huang, G. Yang, H. C. Lyu, B. K. Shao, J. Y. Zhang, G. Q. Yu, H. X. Wei, B. G. Shen, and S. G. Wang*.
Advanced Materials 37 (2025) 2418663.
[利用MBE成功制备单晶外延狄拉克半金属/磁性材料异质结构多层膜,基于拓扑表面态激发的非常规自旋轨道力矩实现全电学驱动垂直磁矩高效翻转]

[2] Full electrical manipulation of perpendicular exchange bias in ultrathin antiferromagnetic film with epitaxial strain.
J. Qi#, Y. C. Zhao#, *, Y. Zhang, G. Yang, H. Huang, H. C. Lyu, B. K. Shao, J. Y. Zhang, J. L. Li, T. Zhu, G. Q. Yu, H. X. Wei, S. M. Zhou, B. G. Shen, and S. G. Wang*.
Nature Communications 15 (2024) 4734.
[成功制备具有超薄反铁磁层的单晶外延垂直磁化多层膜,基于该体系成功实现垂直交换偏置效应的全电学调控]

[3] Field-free magnetization switching driven by spin-orbit torque in L10-FeCrPt single layer.
H. C. Lyu#, Y. C. Zhao#, *, J. Qi, H. Huang, J. Y. Zhang, G. Yang, Y. Q. Guo, S. P. Shen, W. D. Qin, Y. Sun, J. X. Shen, P. W. Dou, B. K. Shao, Y. Zhang, K. Jin, Y. W. Long, H. X. Wei, B. G. Shen, and S. G. Wang*;
Advanced Functional Materials 32 (2022) 2200660.
[通过反铁磁元素精确掺杂制备强垂直磁各向异性L10-FeCrPt单晶薄膜并在单层膜体系中实现了无外磁场辅助的电流驱动垂直磁矩翻转]

[4] Direct observation of magnetic contrast obtained by photoemission electron microscopy with deep ultra-violet laser excitation.
Y. C. Zhao, H. C. Lyu, G. Yang, B. W. Dong, J. Qi, J. Y. Zhang, Z. Z. Zhu, Y. Sun, G. H. Yu, Y. Jiang, H. X. Wei, J. Wang, J. Lu, Z. H. Wang, J. W. Cai, B. G. Shen, W. S. Zhan, F. Yang, S. J. Zhang, and S. G. Wang*.
Ultramicroscopy 202 (2019) 156.
[成功搭建可用于高分辨磁成像的深紫外激光-光发射电子显微镜系统 (DUV-PEEM),首次在不依赖大型同步辐射装置的前提下实现磁性薄膜样品的PEEM磁畴观测]

[5] Magnon excitation-induced spin memory loss in epitaxial L10-FePt/MgO/L10-FePt magnetic tunnel junctions.
G. Yang#, *, Y. C. Zhao#, J. Qi, X. Q. Zheng, Y. Zhang, B. K. Shao, and S. G. Wang*.
Applied Physics Letters 125 (2024) 092403.

[6] Tailoring of the interfacial Dzyaloshinskii−Moriya interaction in perpendicularly magnetized epitaxial multilayers by crystal engineering.
J. Qi#, Y. C. Zhao#, *, H. Huang, Y. Zhang, H. C. Lyu, G. Yang, J. Y. Zhang, B. K. Shao, K. Jin, Y. Zhang, H. X. Wei, B. G. Shen, and S. G. Wang*.
The Journal of Physical Chemistry Letters 14 (2023) 637.

[7] Controllable spin–orbit torque induced by interfacial ion absorption in Ta/CoFeB/MgO multilayers with canted magnetizations.    
J. Y. Zhang#, Y. C. Zhao#, P. W. Dou, W. L. Peng, H. Huang, X. Deng, Y. B. Wang, J. L. Liu, J. W. Xu, T. Zhu, J. Qi, X. Q. Zheng, Y. F. Wu, B. G. Shen, and S. G. Wang*.
ACS Applied Materials & Interfaces 15 (2023) 49902.

[8] Perpendicular magnetization switching driven by spin-orbit torque for artificial synapses in epitaxial Pt-based multilayers.
Q. Q. Zhang#, Y. C. Zhao#, C. L. He*, Y. P. Huo, B. S. Cui, Z. T. Zhu, G. Y. Zhang, G. Q. Yu, B. He, Y. Zhang, H. C. Lyu, Y. Q. Guo, J. Qi, S. P. Shen, H. X. Wei, B. G. Shen, and S. G. Wang*.
Advanced Electronic Materials 8 (2022) 2200845.

[9] Current-induced magnetization switching in epitaxial L10-FePt/Cr heterostructures through orbital Hall effect.
H. C. Lyu#, Y. C. Zhao*, J. Qi, G. Yang, W. D. Qin, B. K. Shao, Y. Zhang, C. Q. Hu, K. Wang, Q. Q. Zhang, J. Y. Zhang, T. Zhu, Y. W. Long, H. X. Wei, B. G. Shen, and S. G. Wang*.
Journal of Applied Physics 132 (2022) 013901.

[10] Enhancement of phonon skew scattering in epitaxial Pt/Co/Pt trilayers by crystal engineering.
J. Qi, Y. C. Zhao*, H. C. Lyu, G. Yang, H. Huang, J. Y. Zhang, J. X. Shen, W. D. Qin, C. Q. Hu, Y. Gao, Y. Q. Guo, B. K. Shao, Y. Zhang, Z. Z. Zhu, H. X. Wei, B. G. Shen, and S. G. Wang*.
Physical Review B 104 (2021) 214417.

[11] Implementation of complete Boolean logic functions in single spin–orbit torque device.
Y. C. Zhao, G. Yang*, J. X. Shen, S. Gao, J. Y. Zhang, J. Qi, H. C. Lyu, G. Q. Yu, K. Jin, and S. G. Wang*.
AIP Advances 11 (2021) 015045.

[12] Spin reorientation transition induced by surface reconstruction in epitaxial Fe/Co bilayers.
H. C. Lyu, Y. C. Zhao*, J. Qi, G. Yang, J. X. Shen, J. Y. Zhang, B. K. Shao, Z. Z. Zhu, Y. Sun, B. G. Shen, W. D. Qin, Y. Q. Guo, and S. G. Wang*.
Journal of Magnetism and Magnetic Materials 533 (2021) 168019.

综述文章:
[1] 基于自旋-轨道力矩效应的电流驱动垂直磁矩无场翻转研究.
赵云驰#, 张毅#,祁杰,张静言,于国强,魏红祥,张颖, 沈保根,王守国*.
物理学报Acta Phys.Sin.75 (2026) 060705.

[2] Topological magnetism: materials and devices.
J. Y. Zhang#, J. W. Xu#, Y. C. Zhao#, P. W. Dou, J. J. Yang, J. Qi, H. F. Du, Y. Zhang, S. M. Zhou, B. G. Shen, and S. G. Wang*.
Advanced Functional Materials 35 (2025) 2425483.

[3] 基于深紫外激光-光发射电子显微技术的高分辨率磁畴成像研究.
吕浩昌#,赵云驰#,杨光, 董博闻,祁杰,张静言,朱照照,孙阳,于广华,姜勇,魏红祥,王晶,陆俊,王志宏,蔡建旺,沈保根,杨峰,张申金,王守国*.
物理学报Acta Phys.Sin.)69 (2020) 096801.

Email:
yczhao@iphy.ac.cn