Dong Xinwei-厦大物理科学与技术学院

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Dong Xinwei

Assistant Professor

dongxw@xmu.edu.cn

Office 423, Department of Physics, Collage of Physical Science and Technology, Xiamen University

website:

Research AreasXinwei Dong's research focuses on the investigations on magnetic dynamic process in magnetic nanostructures by using micromagnetic simulations and the multiferroic property of rare-earth metal oxides, mainly include: 1. Investigation of the magnetic vortex state and switching processes and its potential applications in information technology; 2. The magnetic domain wall propagation property in magnetic nanowires; 3. Investigation of the magnetic multiferroic in the rare-earth metal oxides.

Publications

1.Xinwei Dong, Zhenyu Wang and Ruifang Wang, “Deep sub-nanosecond reversal of vortex cores confined in a spin-wave potential well” Applied Physics Letters 104, 112413 (2014).
2.Ruifang Wang, and Xinwei Dong, “Sub-nanosecond switching of vortex cores using a resonant perpendicular magnetic field” Applied Physics Letters 100, 082402 (2012).
3.X. W. Dong, S. Dong, K. F. Wang, J. G. Wan, and J. -M. Liu, “Enhancement of ferroelectricity in Cr-doped Ho2Ti2O7” Applied Physics Letters 96 242904 (2010).
4.X. W. Dong, K. F. Wang, S. J. Luo, J. G. Wan, and J. –M. Liu, “Coexistence of magnetic and ferroelectric behaviors of pyrochlore Ho2Ti2O7” Journal of Applied Physics 106, 104101 (2009).
5.X. W. Dong, B. Wang, K. F. Wang, J. G .Wan, and J. –M. Liu, “Ultra-sensitive detection of magnetic field and its direction using bilayer PVDF/Metglas laminate” Sensors and Actuators A: Physical 153, 64 (2009).
6.X. W. Dong, K. F. Wang, J. G. Wan, J. S. Zhu, and J. -M. Liu, “Magnetocapacitance of polycrystalline Bi5Ti3FeO15 prepared by sol-gel method” Journal of Applied Physics 103, 094101 (2008).
7.X. W. Dong, Y. J. Wu, J. G. Wan, T. Wei, Z. H. Zhang, S. Chen, H. Yu and J.-M. Liu, “Phase shift of electric-field-induced magnetization in magnetoelectric laminate composite” Journal of Physic D: Applied Physic 41, 035003 (2008).
8.N. Zhang, K. F. Wang, S. J. Luo, T. Wei, X. W. Dong, S. Z. Li, J. G. Wan, and J.-M. Liu, Effect of B-site Al-doping on electric polarization in DyMnO3, Applied Physics Letters96 252902 (2010).
9.Kai Chen, Feng Gao, Weiwei Lin, Hongling Cai, Guolin Li, XinWei. Dong, Song Peng, Xiaoshan Wu , Mao Yang , Jun Du, Xiaomei Lu, Junming Liu and Jinsong Zhu, Room-temperature multiferroic properties in NiBi2O4, Europhys. Lett. 89, 27004 (2010).
10.S. J. Luo, K. F. Wang, S. Z. Li, X. W. Dong, Z. B. Yan, H. L. Cai, and J.-M. Liu, “Enhanced ferromagnetism and ferroelectricity in multiferroic CuCr1−xNixO2” Applied

Funds&Project

"The investigations of magnetic multiferroics in spin ice." 2013-2015 National Natural Science Foundation of
China Grant Nos. 11204255.

姓名	Dong Xinwei	职称职务	Assistant Professor
邮箱	dongxw@xmu.edu.cn	办公室	Office 423, Department of Physics, Collage of Physical Science and Technology, Xiamen University
电话		个人主页
其他信息		研究方向岗位职责	Xinwei Dong's research focuses on the investigations on magnetic dynamic process in magnetic nanostructures by using micromagnetic simulations and the multiferroic property of rare-earth metal oxides, mainly include: 1. Investigation of the magnetic vortex state and switching processes and its potential applications in information technology; 2. The magnetic domain wall propagation property in magnetic nanowires; 3. Investigation of the magnetic multiferroic in the rare-earth metal oxides.
教育和工作经历		代表性文章或专著	1.Xinwei Dong, Zhenyu Wang and Ruifang Wang, “Deep sub-nanosecond reversal of vortex cores confined in a spin-wave potential well” Applied Physics Letters 104, 112413 (2014). 2.Ruifang Wang, and Xinwei Dong, “Sub-nanosecond switching of vortex cores using a resonant perpendicular magnetic field” Applied Physics Letters 100, 082402 (2012). 3.X. W. Dong, S. Dong, K. F. Wang, J. G. Wan, and J. -M. Liu, “Enhancement of ferroelectricity in Cr-doped Ho2Ti2O7” Applied Physics Letters 96 242904 (2010). 4.X. W. Dong, K. F. Wang, S. J. Luo, J. G. Wan, and J. –M. Liu, “Coexistence of magnetic and ferroelectric behaviors of pyrochlore Ho2Ti2O7” Journal of Applied Physics 106, 104101 (2009). 5.X. W. Dong, B. Wang, K. F. Wang, J. G .Wan, and J. –M. Liu, “Ultra-sensitive detection of magnetic field and its direction using bilayer PVDF/Metglas laminate” Sensors and Actuators A: Physical 153, 64 (2009). 6.X. W. Dong, K. F. Wang, J. G. Wan, J. S. Zhu, and J. -M. Liu, “Magnetocapacitance of polycrystalline Bi5Ti3FeO15 prepared by sol-gel method” Journal of Applied Physics 103, 094101 (2008). 7.X. W. Dong, Y. J. Wu, J. G. Wan, T. Wei, Z. H. Zhang, S. Chen, H. Yu and J.-M. Liu, “Phase shift of electric-field-induced magnetization in magnetoelectric laminate composite” Journal of Physic D: Applied Physic 41, 035003 (2008). 8.N. Zhang, K. F. Wang, S. J. Luo, T. Wei, X. W. Dong, S. Z. Li, J. G. Wan, and J.-M. Liu, Effect of B-site Al-doping on electric polarization in DyMnO3, Applied Physics Letters96 252902 (2010). 9.Kai Chen, Feng Gao, Weiwei Lin, Hongling Cai, Guolin Li, XinWei. Dong, Song Peng, Xiaoshan Wu , Mao Yang , Jun Du, Xiaomei Lu, Junming Liu and Jinsong Zhu, Room-temperature multiferroic properties in NiBi2O4, Europhys. Lett. 89, 27004 (2010). 10.S. J. Luo, K. F. Wang, S. Z. Li, X. W. Dong, Z. B. Yan, H. L. Cai, and J.-M. Liu, “Enhanced ferromagnetism and ferroelectricity in multiferroic CuCr1−xNixO2” Applied
科研基金及项目	"The investigations of magnetic multiferroics in spin ice." 2013-2015 National Natural Science Foundation of China Grant Nos. 11204255.	任教课程
招生方向		荣誉奖励