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代表性学术论文

[1] Y. Yang, X. G. Chai. Viscous flux flow velocity and stress distribution in the Kim model of a long rectangular slab superconductor, Superconductor Science and Technology,31(5) (2018) 055005

[2] Y. Yang, C. S. Li. Minor loop dependence of the magnetic forces and stiffness in a PM-HTS levitation system, AIP Advances, 7(12) (2017) 125028
[3] Y. Yang, C. S. Li. Numerical investigation of the relationship between magnetic stiffness and minor loop size in the HTS levitation system, AIP Advances, 7(10) (2017) 105327
[4] Y. Yang, X. J. Zheng. Radial and hoop compressive stresses in a long cylindrical superconductor with viscous flux flow, Journal of Superconductivity and Novel Magnetism, 28 (8) (2015) 2255–2258
[5] Y. Yang. Corrigendum: Impact of viscous flux flow on the stresses in long cylindrical superconductors. Superconductor Science and Technology,27(5) (2014) 059501

[6] Y. Yang, X. J. Zheng, T. Li, and Z. Q. Hua. Calculation of the interaction forces between superconductor and permanent magnet using equivalent current loops in zero field cooling. Advanced Materials Research,634-638 (2013) 2436-2441
[7] Y. Yang,G. M. Zhang, L. Wang, Z. Q. Hua, and T. Li. Impact of viscous flux flow on the stresses in long cylindrical superconductors. Superconductor Science and Technology,24(9) (2011) 095003
[8] Y. Yang, L.Y. Xiao, and X. H. Li. Impact of viscous flux flow on the stress in long rectangular slab superconductors. Journal of Applied Physics107 (2010) 023910 (Selected in Virtual Journal of Applications of Superconductivity, February 1, 2010.)
[9] Y. Yang, L.Y. Xiao, X. H. Li, and G. M. Zhang. Stress in Bulk Type-II Superconductor Under Viscous Flux Motion for a Complete Field Cycle After Zero-field Cooling. IEEE Transactions on Applied Superconductivity 20 (3) (2010) 1507-1510
[10] Y. Yang. Effects of parameters of high-temperature superconductor levitation system on the vertical force in zero-field cooling when a permanent magnet is laterally traversing. Journal of Superconductivity and Novel Magnetism, 22 (4) (2009) 381-385

[11] Y. Yang. Vertical and lateral forces when a permanent magnet above a superconductor traverses in arbitrary directions. Superconductor Science and Technology,21(12) (2008) 125012

[12] Y. Yangand X. J. Zheng. Effect of parameters of a high-temperature superconductor levitation system on the lateral force.Superconductor Science and Technology 21(1) (2008) 015021

[13] Y. Yang and X. J. Zheng. Method for solution of the interaction between superconductor and permanent magnet. Journal of Applied Physics101 (2007) 113922

[14] X. J. Zheng and Y. Yang. Transition cooling height of high-temperature superconductor levitation system. IEEE Transactions on Applied Superconductivity 17 (4) (2007) 3862-3866

[15] X. F. Gou, Y. Yang, and X. J. Zheng. Analytic expression of magnetic field distribution of rectangular permanent magnets. Applied Mathematics and Mechanics 25 2004 297-306

发明专利

1. 杨勇,王磊,华志强,李弢,焦玉磊,郑明辉。一种径向高温超导磁悬浮轴承的简化计算方法,专利号:CN 103185072 A (已授权)

2. 杨勇,李晓航,赵博洋。一种太空环境下的超导电缆,申 请 号:201711368703X

3. 杨勇,李晓航,赵博洋。一种超导电缆模拟太空环境试验腔体申 请 号:2017113687504