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黄厚兵
黄厚兵
姓  名: 黄厚兵
性  别:

技术职称:

讲师

电子邮箱: hbhuang@ustb.edu.cn
所在系所: 物理系
所在梯队: 磁电介质物理梯队
研究领域:

相场方法模拟铁电、铁磁、铁弹和多铁性材料微观结构演化、磁电卡效应等

微磁学模拟自旋极化驱动磁化

简历

教育经历:

2015.09至今,北京科技大学物理系

2013-2015,宾夕法尼亚州立大学材料系博士后

2011-2013,宾夕法尼亚州立大学材料系联合培养博士生

2008-2011,北京科技大学物理系博士研究生

2007-2008,北京科技大学物理系硕士研究生 

2003-2007,安徽大学物理系

科研项目:

主持国家自然科学基金青年项目《NiCoMnIn/BaS+rTiO3多铁性薄膜中磁/电卡效应耦合的相场模拟研究》(11504020)

论文列表:

1.     H. B. Huang, C. P. Zhao, X. Q. Ma, Stress-control current-induced magnetization precession frequency in Heusler-based spin valve nanopillar, Journal of Magnetism and Magnetic Materials,426, 415-420 (2017).

2.     G. P. Cao#, Houbing Huang#, D. S. Liang, X. Q. Ma,A Phenomenological Potential and Ferroelectric Properties of BaTiO3-CaTiO3 Solid Solution, Ceramics International, 43, 6671-6676(2017).

3.     Wangqiang He#, Houbing Huang#, Xingqiao Ma, First principle calculations on elastic and entropy properties in FeRh alloys, Materials Letters,195, 156-158(2017).

4.     H. B. Huang, X. Y. Wang, X. Q. Ma, A comparison study of solving diffusion equations with different algorithm methods,AIP Advances, 6, 125043 (2016).

5.     H. B. Huang, W. Q. He, G. P. Cao, J. J. Wang, Z. H. Liu, andX. Q. Ma,Multi-scale simulations of metamagnetic martensite transition in NiCoMnIn, Journal of Alloys and Compounds, 689, 507-511 (2016).

6.     H. B. Huang, C. P. Zhao, and X. Q. Ma, Micromagnetic Simulation of Strain-Assisted Current-Induced Magnetization Switching, Advances in Condensed Matter Physics,2016, 9271407 (2016).

7.     G. Z. Zhang#, X. S. Zhang#, H. B. Huang#,J. J. Wang, L. Q. Chen, and Q. Wang,Toward Wearable Cooling: Highly Flexible Electrocaloric Ba0.67Sr0.33TiO3 Nanowire Array, Advanced Materials, 28, 4811-4816 (2016).(封面论文)

8.     J. J. Wang#, H. B. Huang#, T. J M Bayer, A. Moballegh, Y. Cao, A. Klein, E. C. Dickey, D. L. Irving, C. A. Randall, L. Q. Chen, Defect Chemistry and Resistance Degradation in Fe-doped SrTiO3 Single Crystal, Acta Materialia, 108, 229-240(2016).

9.     H. B. Huang, X. Q. Ma, J. J. Wang, W. Q. He, Z. H. Liu, and L. Q. Chen, A Phase-Field Simulation on Phase Transition and Domain Structures of NiCoMnIn Metamagnetic Alloys.Acta Materialia. 83, 333-340 (2015).

10.  H. B. Huang, X. Q. Ma, C. P. Zhao, Z. H. Liu, and L. Q. Chen, Micromagnetic Study of High-Power Spin-Torque Oscillator with Perpendicular Magnetization in Half-Metallic Heusler Alloy Spin Valve Nanopillar under External Magnetic Fields. Journal of Magnetism and Magnetic Materials, 373,10-15 (2015).

11.  H. B. Huang, J. M. Hu, T. N. Yang, X. Q. Ma, and L. Q. Chen, Strain-assisted current-induced magnetization reversal in magnetic tunnel junctions: A micromagnetic study with phase-field microelasticity, Applied Physics Letters, 105, 122407 (2014).

12.  H. B. Huang, X. Q. Ma, Z. H. Liu, C. P. Zhao, and L. Q. Chen, Modelling Current-Induced Magnetization Switching in Heusler Alloy Co2FeAl-Based Spin-Valve Nanopillars. Journal of Applied Physics, 115, 133905 (2014).

13.  H. B. Huang, X. Q. Ma, Z. H. Liu, and L. Q. Chen, Modelling High-Power Spin-Torque Oscillator with Perpendicular Magnetization in Half-Metallic Heusler Alloy Spin Valve Nanopillar. Journal of Alloys and Compounds, 597, 230-235 (2014).

14.  H. B. Huang, X. Q. Ma, Z. H. Liu, F. Y. Meng, S. Q. Shi, and L. Q. Chen, Micromagnetic Simulation of Critical Current Density of Spin Transfer Torque Switching in a Full-Heusler Co2FeAl0.5Si0.5 Alloy Spin Valve Nanopillar. Journal of Magnetism and Magnetic Materials. 330, 16-20 (2013).

15.  H. B. Huang, X. Q. Ma, Z. H. Liu, C. P. Zhao, S. Q. Shi, and L. Q. Chen, Simulation of Multilevel Cell Spin Transfer Switching in a Full-Heusler Alloy Spin-Valve Nanopillar. Applied Physics Letters. 102, 042405 (2013).

16.  H. B. Huang, X. Q. Ma, Z. H. Liu, C. P. Zhao, and L. Q. Chen, Micromagnetic Simulation of High-Power Spin-Torque Oscillator in Half-Metallic Heusler Alloy Spin Valve Nanopillar. AIP Advances 3, 032132 (2013).

17.  H. B. Huang, X. Q. Ma, Z. H. Liu, X. M. Shi, T. Yue, Z. H. Xiao, and L. Q. Chen, Micromagnetic Simulation of Spin Transfer Torque Magnetization Precession Phase Diagram in a Spin-Valve Nanopillar under External Magnetic Fields. International Scholarly Research Notices Volume 2012, 387380 (2012).

18.  H. B. Huang, X. Q. Ma, Z. H. Liu, F. Y. Meng, Z. H. Xiao, P. P. Wu, S. Q. Shi, and L. Q. Chen, Micromagnetic Simulation of Spin-Transfer Switching in a Full-Heusler Co2FeAl0.5Si0.5 Alloy Spin-Valve Nanopillar. Journal of Applied Physics 110, 033913 (2011).

19.  H. B. Huang, X. Q. Ma, T. Yue, Z. H. Xiao, S. Q. Shi and L. Q. Chen, Magnetization Switching Modes in Nanopillar Spin Valve for the External Magnetic Fields. Science China Astronomy, Mechanical & Physics 54 (7), 1227-1234 (2011).

20.  Congpeng Zhao, Xingqiao Ma, Hou Bing Huang, Hasnain Mehdi Jafri, Zhuhong Liu, Longqing Chen, Phase-field simulation of strain-assisted current-induced magnetization dynamics in a magnetic tunnel junction, IEEE Magnetics Letters, 8, 3104605 (2017).

21.  C. C. Hu, T. N. Yang, H. B. Huang, J. M. Hu, J. J. Wang, Y. G. Shi, D. N. Shi, and L. Q. Chen, Thermal Domain Stability near Morphotropic Phase Boundary in GiantMagnetostrictive Material,Applied Physics Letters. 108, 141908(2016).

22.  G. P. Cao, Y. Cao, H. B. Huang, L. Q. Chen, X. Q. Ma, Analysis of multi-domain ferroelectric switching in BiFeO3 thin film using phase-field method, Computational Materials Science, 115, 208-213 (2016).

23.  J. M. Hu, T. N. Yang, J. J. Wang, H. B. Huang, J. X. Zhang,L. Q. Chenand C. W. Nan, Purely electric-field-driven perpendicular magnetization reversal,Nano Letters, 15(1),616-622 (2015).

24.  Z. J. Wang, X. Q. Ma, H. B. Huang, H. W. Xiao, T. F. Li, Micromagnetic Study of Domain Walls in Exchange Spring Trilayers. Advanced in Condensed Matter Physics, 2014, 301064 (2014).

25.  J. J. Wang, X. Q. Ma, H. B. Huang, W. Q. He, Z. H. Liu, and L. Q. Chen, A Thermodynamic Potential for Ni45Co5Mn36.7In13.3 Single Crystal. Journal of Applied Physics, 114, 013504 (2013).