发布日期:2024-04-15 浏览次数:次
个人简介 王煜,男,博士,特聘副教授,硕士生导师。 主要研究方向:智能材料多场耦合力学;主要研究方法:多物理场有限元计算、智能材料微结构相场模拟;相关研究成果已应用于信息(例如量子器件、超级计算机)、航空航天、能源、医疗等领域。近五年内,相关成果已在Science Bulletin, Acta Materialia(2篇), Int. J. Mech. Sci.(2篇), Int. J. Solids Struct., Phys. Rev. B(2篇), Phys. Rev. Applied(2篇), ACS Nano,固体力学学报等期刊上发表。 曾获国家留学基金委(CSC)公派留学奖学金、京都大学全额奖学金、浙江大学优秀研究生、应怀樵奖学金、浙江大学学业奖学金、湖南大学法士特齿轮一等奖学金、湖南大学一等奖学金、二等奖学金、湖南大学力学竞赛等奖项。近年来参加全国固体力学大会、中国力学大会、美国MRS Fall、USNC/TAM、WCCM-APCOM、ICMR、PIERS等重要学术会议并做口头发表,促进该领域的学术交流和发展。担任Acta Materialia、Nano Letters、Phys. Rev. B等国际权威期刊审稿人。在海外学习工作期间,协助培养本科生2名、硕士生3名、博士生1名。 个人学术主页: https://orcid.org/0000-0002-2947-7262 近期研究兴趣: 1)磁性斯格明子(skyrmions)与自旋波的动力学 2)铁电体系中拓扑结构的应变工程 3)多铁材料中拓扑结构的多场耦合特性 课题组经费充足,学风自由,欢迎力学、物理、材料、机械、土木或交叉学科背景的研究生交流、加入! 已发表论文(第一作者#,通讯作者*): [1] Y. Wang#*, J. Wang, et al. Dynamic Precursor Effect: the magnitude-fluctuated coherent spin waves emitted by skyrmions. Acta Materialia. 250, 118867 (2023) 一区/Q1/TOP, IF = 9.209 [2] Y. Wang#*, T. Shimada, et al. The rectilinear motion of the individual asymmetrical skyrmion driven by temperature gradients. Acta Materialia. 221, 117383 (2021) 一区/Q1/TOP, IF = 9.209 [3] Y. Wang#*, J. Wang, et al. Mechanical effects on skyrmion-skyrmion interaction. Int. J. Mech. Sci. 108699 (2023) 一区/Q1/TOP, IF = 7.3 [4] I. A. Malik#, H. Huang#, Y. Wang#, et al. Inhomogeneous-strain-induced magnetic vortex cluster in one-dimensional manganite nanowire. Science Bulletin. 65, 201-207 (2020) 一区/Q1/TOP, IF = 20.577 [5] T. Xu, Y. Ichiki, K. Masuda, Y. Wang, et al. Ultrasmall polar skyrmions and merons in SrTiO3 heterostructures by polaron engineering. ACS Nano. 17(11), 10836 (2023) 一区/Q1/TOP/自然指数期刊, IF = 18.027 [6] S. Wu, Y. Zhang, C. Tian, J. Zhang, M. Wu, Y. Wang et al. Prototype Design of a Domain-Wall-Based Magnetic Memory Using a Single Layer La0.67Sr0.33MnO3 Thin Film. ACS Appl. Mater. Interfaces. 13, 23945-23950 (2021) 二区/Q1/TOP, IF = 10.383 [7] T. Xu, C. Wang, Y. Zhu, Y. Wang, et al. Efficient phase-field simulation for linear superelastic NiTi alloys under temperature gradients. Int. J. Mech. Sci. 259, 108592 (2023) 一区/Q1/TOP, IF = 7.3 [8] Y. Wang#, J. Sun, T. Shimada, et al. Ferroelectric control of magnetic skyrmions in multiferroic heterostructures. Physical Review B. 102, 014440 (2020) 二区/Q2/TOP/自然指数期刊, IF = 4.036 [9] Y. Wang#*, J. Wang, et al. Effective modeling of magnitude-fluctuated magnetization dynamics: Dynamic precursor effect in magnets. Physical Review B. 106, 094423 (2022) 二区/Q2/TOP/自然指数期刊, IF = 4.036 [10] Y. Wang#*, T. Kitamura, et al. Mechanical acceleration and control on thermal motion of magnetic skyrmion. Physical Review Applied. 18, 014049 (2022) 二区/Q1, IF = 4.931 [11] Y. Wang#*, J. Wang, et al. Exponential temperature effects on skyrmion-skyrmion interaction. Physical Review Applied. 18, 044024 (2022) 二区/Q1, IF = 4.931 [12] Y. Wang#, C. Liu, H. Yu and J. Wang. Phase field simulations on domain switching-induced toughening or weakening in multiferroic composites. Int. J. Solids Struct. 178-179, 48-58. (2019) 二区/Q1, IF = 3.9 [13] Y. Wang# and J. Wang. The temperature–strain phase diagrams of ferromagnetic thin films under different magnetic fields. J. Phys.: Condens. Matter. 33, 235802 (2021) (邀稿) 三区/Q3, IF = 2.745 [14] T. Shimada#, Y. Wang#, et al. Emergence of non-trivial polar topologies hidden in singular stress field in SrTiO3: Topological strain-field engineering. J. Phys.: Condens. Matter. 33, 505301 (2021) 三区/Q3, IF = 2.745 [15] Y. Wang#, Y. Shi, and J. Wang. Mechanical control of topological magnetic structures in multiferroic composites. 固体力学学报. 41(2), 142-150 (2020) (邀稿) [16] J. Sun, S. Shi, Y. Wang. et al. Phase Field Modeling of Topological Magnetic Structures in Ferromagnetic Materials Domain Wall, Vortex and Skyrmion. Acta Mechanica. (邀稿) 三区/Q2, IF = 2.645 教育经历 [1] 2013.9-2017.6 湖南大学 | 工程力学 | 学士学位 [2] 2017.9-2020.6 浙江大学 | 固体力学 | 硕士学位 [3] 2020.10-2023.9 京都大学 (Kyoto University) | 工学 | Ph.D 工作经历 [1] 2023.10-至今 中南大学 | 土木工程学院力学系 | 特聘副教授