教师名录
晏飞翔
通讯地址:G栋608A室
电子邮件:fyen@hit.edu.cn
联系电话:13349290010

个人简介

晏飞翔1980年出生于美国德州,2002年休斯顿大学物理系学士,2007年休斯顿大学物理系博士;先后任职于西南交通大学牵引动力国家实验室(副教授)和中国科学院合肥物质科学研究院固体物理研究所(副研究员),2018年起工作于哈尔滨工业大学(深圳)理学院副教授。研究方向为固体物理和化学物理,包含:超导、磁性、铁电、分子晶体、低温高压和强磁场条件下的实验测量等。至今,已在Phys. Rev. Lett., Angew. Chem. Int. Ed., J. Phys. Chem. Lett., Phys. Rev. B, Phys. Chem. Chem. Phys., J. Phys. Chem. C等国际期刊发表论文50多篇,被引用次数超过1000次,H指数16。主持国家自然科学基金项目3项。

研究方向

固体物理
化学物理
高压物理

教育经历

1998.08-2002.08  休斯敦大学物理系,学士
2002.08-2003.12  休斯敦大学物理系,硕士
2004.01-2007.05  休斯敦大学物理系,博士

研究与工作经历

2002.09-2003.12  休斯敦大学物理系,教师助理(TA)
2004.01-2007.06  休斯敦大学德州超导中心,研究助理(RA)
2007.08-2008.07  美国史密斯国际公司,油井工程师
2009.03-2013.02  西南交通大学牵引动力国家实验室,副教授
2013.02-2018.03  中国科学院合肥物质科学研究院固体物理研究所,副研究员
2018.03-至今  哈尔滨工业大学深圳研究生院,副教授

专业资质与学术兼职

2007-至今  为不同的国际科学期刊审稿文章
2016  2017年度国家自然科学基金面上项目审稿人,15项

科研项目

2012.07-2013.06  国家自然科学基金外国青年学者研究项目
2014.01-2017.12  国家自然科学基金面上项目
2017.01-2018.12  国家自然科学基金外国青年学者研究项目

科研成果及奖励

2004.05  美国德州超导中心“最杰出的研究生”奖第一名

发明专利

3. 晏飞翔,林群旭,李婧,陈鑫,荆海莲,许媛媛,王素玉,王家素,张卫华,发明专利,超导同步电机,编号:CN103633816B,西南交通大学,授权时间:2016.2.3

2. 晏飞翔,李婧,林群旭,王素玉,王家素,郑珺,郑石钧,陈鑫,马光同,超导直线感应电动机,使用新型,编号:CN202190204U,西南交通大学,授权时间:2012.4.11

1. 晏飛翔,刘璐,李婧,将冬辉,刘伟,郑石钧,马光同,郑珺,王家素,王素玉,含蓝宝石部件的杜瓦容器,实新专利,编号:201020257694.4,西南交通大学,授权时间:2010.11.25

论文及著作

37. Z. H. Chi*†, X. L. Chen†, F. Yen†, F. Peng†, Y. H. Zhou, J. L. Zhu, Y. J. Zhang, X. D. Liu, C. L. Lin, S. Q. Chu, Y. C. Li*, J. G. Zhao*, T. Kagayama, Y. M. Ma, Z. R. Yang*, “Superconductivity in pristine 2H-MoS2 at ultrahigh pressure,” Physical Review Letters 130, 037002 (2018). †Contributed equally.

36. F. Yen*, Z. Z. Zhao, S. X. Hu, L. Chen, “Molecular dynamics of hexamethylbenzene at low temperatures; evidence of unconventional magnetism based on rotational motion of protons,” Angewandte Chemie 56, 1-5, Very Important Paper (2017).

35. F. Yen*, Z. H. Chi, A. Berlie, X. D. Liu, A. F. Goncharov, “Dielectric Anomalies in Crystalline Ice: Indirect Evidence of the Existence of a Liquid-Liquid Critical Point in H2O,” Journal of Physical Chemistry C, 119, 35, 20618 (2015).

34. X. C. Pan, X. L. Chen, H. M. Liu, Y. Q. Feng, Z. X. Wei, Y. H. Zhou, Z. H. Chi, L. Pi, F. Yen, F. Q. Song, X. G. Wan*, Z. R. Yang*, B. G. Wang*, G. H. Wang, Y. H. Zhang, "Pressure-driven dome-shaped superconductivity and electronic structural evolution in tungsten ditelluride," Nature Communications, 6, 7805 (2015).

33. F. Yen*, Tian Gao, “Dielectric anomaly in ice near 20 K: Evidence of macroscopic quantum phenomena,” Journal of Physical Chemistry Letters 6, 2822 (2015). This work was highlighted in https://phys.org/news/2015-07-macroscopic-quantum-phenomena-ice.html.

32. A. F. Goncharov*, N. Holtgrewe, G. R. Qian, C. H. Hu, A. R. Oganov, M. Somayazulu, E. Stavrou, C. J. Pickard, A. Berlie, F. Yen, M. Mahmood, S. S. Lobanov, Z. Konopkova, V. B. Prakapenka, “Backbone NxH Compounds at High Pressures,” Journal of Chemical Physics 142, 214308 (2015).

31. F. Yen*, Z. H. Chi, “Proton ordering dynamics of H2O ice,” Physical Chemistry Chemical Physics 17, 12458-12461 (2015).

30. J. Li*, F. Yen, S. J. Zheng, S. Y. Wang, “Electromagnetic Forces of High-Tc Superconducting Coated Conductor Coils Subjected to Sinusoidal Traveling Magnetic Fields,” Journal of Low Temperature Physics 174, 87-95 (2014).

29. J. Zheng*, X. L. Liao, H. L. Jing, Z. G. Deng, F. Yen, S. Y. Wang, J. S. Wang, “Growth anisotropy effect of bulk high temperature superconductors on the levitation performance in the applied magnetic field,” Physica C 493, 52-54 (2013).

28. F. Yen*, X. Chen, R. B. Wang, J. M. Zhu, J. Li, G. T. Ma, “Induced Currents in Close-ended Type II Superconducting Coils,” IEEE Transactions on Applied Superconductivity 23 8202005 (2013).

27. S. J. Zheng, F. Yen*, J. Li, Q. X. Lin, X. Chen, J. Zheng, G. T. Ma, “Performance of a high-Tc superconducting linear synchronous motor prototype at different mechanical apertures,” Rare Metal Materials and Engineering 42, 2400-2403, in Chinese (2013).

26. Y. Y. Xu, G. T. Ma, Z. G. Deng, F. Yen, D. H. Jiang, W. H. Zhang, "A survey of the development of low and high-Tc superconducting motors/generators," Chinese Journal of Low Temperature Physics 35, 1, 43-51, in Chinese (2013).

25. F. Yen, Q. X. Lin, D. H. Jiang, X. Chen, Y. Y. Xu, J. S. Wang, and S. Y. Wang, “Hydrostatic Pressure Effects on the Critical Current of YBCO Coated Conductor Wire,” IEEE Transactions of Applied Superconductivity, 22, 4, 8401103 (2012).

24. S. J. Zheng, F. Yen, J. Li, Q. X. Lin, X. Chen, J. Zheng, G. T. Ma, J. S. Wang, S. Y. Wang, “Performance of a small scale high temperature superconducting linear synchronous motor prototype,” IEEE Transactions on Applied Superconductivity, Short Papers 22, 2, 5100104 (2012).

23. F. Yen, J. Li, D. H. Jiang, S. J. Zheng, Q. X. Lin, J. S. Wang, S. Y. Wang, “Hydrostatic Pressure Effect on the Critical Current Density of Bi-2223 First Generation Superconducting Wire,” IEEE Transactions on Applied Superconductivity, Technical Notes 21, 4, 3488 (2011).

22. F. Yen*, J. Li, S. J. Zheng, L. Liu, G. T. Ma, J. S. Wang, S. Y. Wang, and W. Liu, “A single-sided linear synchronous motor with a high temperature superconducting coil as the excitation system,” Superconductor Science and Technology 23, 105015 (2010).

21. J. Li, S. Y. Wang, J. S. Wang, Y. J. Qin, Z. G. Deng, F. Yen, J. Zheng, W. Liu, L. Liu, “Influence of Re-magnetized HTS Bulk Sample on the Levitation Performances of a Maglev System,” Journal of Superconductivity and Novel Magnetism 23, 6, 999-1002 (2010).

20. L. I. Vergara, J. Cao, L.-C. Tung, N. Rogado, F. Yen, Y. Q. Wang, R. J. Cava, B. Lorenz, Y.-J. Wang and J. L. Musfeldt, “Magnetoelastic coupling in magnetically frustrated Co3V2O8,” Physical Review B 81, 012403 (2010).

19. R. Chaudhury, F. Yen, B. Lorenz, Y. Y. Sun, N. Bezmaternykh, V. L. Temerov, C. W. Chu, “Magnetoelectric Effect and Spontaneous Polarization in HoFe3(BO3)4 and Ho0.5Nd0.5Fe3(BO3)4,” Physical Review B 80, 104424 (2009).

18. T. Yildirim, L. I. Vergara, Jorge Iniguez, J. L. Musfeldt, A. B. Harris, N. Rogado, R. J. Cava, F. Yen, R. P. Chaudhury, and B. Lorenz, “Phonons and magnetoelectric interactions in N3V2O8,” Journal of Physics: Condensed Matter 20, 434214 (2008).

17. G. Liang, F. Yen, “Magnetic Phase Diagram of Ce(Mn1-xCux)2Si2,” Journal of Applied Physics 103, 07B719 (2008).

16. E. Galstyan, B. Lorenz, K. S. Martirosyan, F. Yen, Y. Y. Sun, M. M. Gospodinov, C. W. Chu, “Magnetic Hysteretic Phenomena in Multiferroic HoMnO3 Single Crystals and Polycrystals with Nano- and Micro-meter Particle Sizes,” Journal of Physics: Condensed Matter 20, 325241 (2008).

15. G. Liang, H. Fang, Z. P. Luo, C. Hoyt, F. Yen, S. Guchhait, B. Lv, J. T. Markert, “Negative effects of crystalline SiC doping on the critical current density in Ti-sheathed MgB2(SiC)y superconducting wires,” Superconductor Science and Technology 20, 697-703 (2007).

14. M. N. Iliev, V. G. Hadjiev, A. P. Litvinchuk, F. Yen, et al., “Multiple-order Raman scattering from rare-earth manganites: Oxygen isotope and rare-earth substitution effects,” Physical Review B 75, 064303 (2007).

13. G. Liang, F. Yen, M. Hanna, H. Fang, C. Hoyt, B. Lv, J. Zeng, and K. Salama, “Effects of MgO impurities and micro-cracks on the critical current density of Ti-sheathed MgB2 wires,” Physica C 457, 47-54 (2007).

12. G. Liang, F. Yen, S. Keith, M. Croft, “Magnetic Ordering in CeMnCuSi2,” Journal of Magnetism and Magnetic Materials 314, 52-59 (2007).

11. R. P. Chaudhury, F. Yen, C. R. dela Cruz, B. Lorenz, Y. Q. Wang, Y. Y. Sun, C. W. Chu, “Pressure-Temperature Phase Diagram of Multiferroic Ni3V2O8,” Physical Review B 75, 012407 (2007).

10. F. Yen, C. R. dela Cruz, B. Lorenz, E. Galstyan, Y. Y. Sun, C. W. Chu, M. M. Gospodinov, “Magnetic phase diagrams of hexagonal ErMnO3, YbMnO3, TmMnO3 and HoMnO3,” Journal of Materials Research 22, No. 8, 2163-2173 (2007).

9. B. Lorenz, C. R. d Cruz, F. Yen, Y. Y. Sun, C. W. Chu, S. C. Park, “Magnetic Frustration, Spin-Lattice Coupling, and Ferroelectricity in Multiferroic Rare Earth (R) Manganites, RMn2O5,” Materials Science and Technology 3, 129-142 (2006).

8. G. Liang, H. Fang, M. Hanna, F. Yen, B. Lv, M. Alessandrini, S. Keith, C. Hoyt, Z. Tang, and K. Salama, “Development of Ti-sheathed MgB2 wires with high critical current density,” Superconductor Science and Technology 19, 1146-1151 (2006).

7. C. R. dela Cruz, F. Yen, B. Lorenz, S. Park, S.-W. Cheong, M. M. Gospodinov, W. Ratcliff, J. W. Lynn, and C. W. Chu, “Evidence for strong spin-lattice coupling in multiferroic RMn2O5 (R=Tb, Dy, Ho) via thermal expansion anomalies,” Journal of Applied Physics 99, 08R103 (2006).

6. C. R. dela Cruz, F. Yen, B. Lorenz, M. M. Gospodinov, C. W. Chu, W. Ratcliff, J. Lynn, S. Park, and S.-W. Cheong, “Structural anomalies at the magnetic and ferroelectric transitions in RMn2O5 (R=Tb, Dy, Ho),” Physical Review B 73, 100406(R) (2006).

5. F. Yen, B. Lorenz, Y. Y. Sun, C. W. Chu, L. N. Bezmaternykh, and A. N. Vasiliev, “Magnetic field effect and dielectric anomalies at the spin reorientation phase transition of GdFe3(BO3)4,” Physical Review B 73, 054435 (2006).

4. B. Mihailova, M. M. Gospodinov, B. Guttler, F. Yen, A. P. Litvinchuk, and M. N. Iliev, “Temperature-dependent Raman spectra of HoMn2O5 and TbMn2O5,” Physical Review B 71, 172301 (2005).

3. C. R. dela Cruz, F. Yen, B. Lorenz, Y. Q. Wang, Y. Y. Sun, M. M. Gospodinov, and C. W. Chu, “Strong spin-lattice coupling in multiferroic HoMnO3: Thermal expansion anomalies and pressure effect,” Physical Review B 71, 060407(R) (2005).

2. B. Lorenz, F. Yen, M. M. Gospodinov, and C. W. Chu, “Field-induced phase in HoMnO3 at low temperatures,” Physical Review B 71, 014438 (2005).

1. F. Yen, C. R. dela Cruz, B. Lorenz, Y. Y. Sun, Y. Q. Wang, M. M. Gospodinov, and C. W. Chu, “Low-temperature dielectric anomalies in HoMnO3: The complex phase diagram,” Physical Review B 71, 180407(R) (2005).

会议论文及发表演说

13. H. L. Jing, J. Zheng, X. L. Liao, Z. G. Deng, X. Chen, F. Yen, J. Li, “Magnetization Method Design of Bulk Multi-seeded High Temperature Superconductors,” Materials Science Forum, 745-746, 185, 190 (2013).

12. J. Li, F. Yen, S. J. Zheng, J. S. Wang, S. Y. Wang, “Normal Force Analysis on a High Temperature Superconducting Linear Synchronous Motor,” IEEE Transactions on Applied Superconductivity, 22, 3, 5200304, 22nd Int. Conf. on Magnet Technology, Marseilles, France (2012).

11. F. Yen, S. J. Zheng, X. Chen, J. Li, Q. X. Lin, Y. Y. Xu, J. Zheng, G. T. Ma, J. S. Wang, and S. Y. Wang, “Superconducting Excitation System of a Small Scale Linear Synchronous Motor,” IEEE Transactions on Applied Superconductivity, 22, 3, 5201103, 22nd Int. Conf. on Magnet Technology, Marseilles, France (2012).

10. J. Zheng, X. L. Liao, H. L. Jing, Q. X. Lin, G. T. Ma, F. Yen, S. Y. Wang, J. S. Wang "Anisotropy Effect on Levitation Performance of Bulk High-Tc Superconductors Above a Permanent Magnet Guideway," Physics Procedia 36, 1043-48 (2012).

9. Q. X. Lin, D. H. Jiang, J. S. Wang, G. T. Ma, F. Yen, Z. G. Deng, J. Zheng, S. Y. Wang, "A Measurement Testing Setup of the Characteristic Properties for High Temperature Superconducting bearing Systems," Physics Procedia 36, 1020-24 (2012).

8. F. Yen, J. Li, S. J. Zheng, D. H. Jiang, L. Liu, W. Liu, G. T. Ma, J. S. Wang, S. Y. Wang, “Design of a 400 N and 12 mm mechanical air gap high temperature superconducting linear synchronous motor,” Rare Metals Materials and Engineering 40, S3, 319–321 (2011), IUMRS 11th International Conference in Asia, Qingdao, Sandong.

7. J. S. Wang, S. Y. Wang, J. Zheng, F. Yen, G. T. Ma, L. Liu, J. Li, W. Liu, “Recent Developments of the High Temperature Superconducting Maglev at ASCLab,” IEEE Transactions on Applied Superconductivity 21, 3, 1551 (2011), Applied Superconductivity Conference, Washington D. C.

6. L. Liu, J. S. Wang, S. Y. Wang, J. Li, J. Zheng, G. T. Ma, F. Yen, “Levitation Force Transition of High-Tc Superconducting Bulks within a Maglev Vehicle System Under Different Dynamic Operation,” IEEE Transactions on Applied Superconductivity 21, 3, 1547 (2011).

5. J. Li, S. Y. Wang, J. S. Wang, F. Yen, L. Liu, J. Zheng, W. Liu, Q. X. Lin, “Experimental study of the electromagnetic forces of a HTS bulk magnet subjected to sinusoidal traveling magnetic field,” IEEE Transactions on Applied Superconductivity 20, 3, 929-932 (2010).

4. R. P. Chaudhury, F. Yen, C. dela Cruz, B. Lorenz, Y. Q. Wang, Y. Y. Sun, and C. W. Chu, “Thermal expansion and pressure effect in MnWO4,” Physica B: Condensed Matter 403, 5-9, 1428, Proceedings of the Strongly Correlated Electron Systems Conf., Houston, TX (2008).

3. F. Yen, R. P. Chaudhury, E. Galstyan, B. Lorenz, Y. Q. Wang, Y. Y. Sun, and C. W. Chu, “Magnetic phase diagrams of the Kagomé staircase compound Ni3V2O8,” Physica B: Condensed Matter 403, 5-9, 1487, Proceedings of the Strongly Correlated Electron Systems Conf., Houston, TX (2008).

2. F. Yen, B. Lorenz, Y. Y. Sun, C. W. Chu, L. N. Bezmaternykh, and A. N. Vasiliev, “Magnetic field effect and dielectric anomalies at the spin reorientation phase transition of GdFe3(BO3)4,” 24th International Conference on Low Temperature Physics - LT24. AIP Conference Proceedings, Volume 850, pp. 1281-1282 (2006).

1. B. Lorenz, C. R. dela Cruz, F. Yen, Y. Q. Wang and Y. Y. Sun and C. W. Chu, “Coupling of Magnetic Order, Ferroelectricity, and Lattice Strain in Multiferroic Rare Earth Manganites,” Proceedings of the 170th Annual Meeting & Exposition of the American Ceramic Society, Baltimore, Maryland, April 10-13, (2005).

任教和任导师经历

Fundamentals of Superconductivity  2011 – Fall Semester, in English, 3 credit hours, instructor, Southwest Jiaotong University
Programming with LabVIEW  2012 – Spring, in English, 3 credit hours, instructor, Southwest Jiaotong University
任导师经历  2009.08-2012.05,郑石均,硕士生,西南交通大学,导师
2010.08-2013.05,陈鑫,硕士生,西南交通大学,导师
2011.08-2014.05,王任波,硕士生,西南交通大学,导师
  
  
最后更新:2018-03-30 10:38:33