封东来 教授 美国斯坦福大学博士 电话:+86-21-31249013 E-mail:Dlfeng@fudan.edu.cn 个人网站/Website:链接/Link 主要经历: 1996 中国科学技术大学硕士 2001 美国斯坦福大学物理系博士 2001-2004 加拿大British Columbia大学物理和天文系博士后 2002-至今 复旦大学物理系教授、博士生导师、复旦“浩清”特聘教授 2011-至今 应用表面物理国家重点实验室主任 曾获联合国教科文组织侯赛因青年科学家奖,海外华人物理学会亚洲成就奖,亚太物理学会联盟杨振宁奖,中国物理学会叶企孙奖等奖项。 教学与研究领域: 研究领域:实验凝聚态物理。用基于同步辐射与激光的能谱和散射技术来研究复杂量子材料的电子结构,研究对象涵盖高温超导,铁基超导,Mott绝缘体,电荷/自旋/轨道有序体系等关联体系,及人工异质界面,有机功能分子材料等低维体系。发表论文80余篇,共被引用4000多次。 Donglai Feng Fudan-Haoqing Chair Professor Ph.D.(2001), Stanford University, U.S.A. Research Interests: Selected Publications: 1) S. Tan, Y. Zhang, M. Xia, Z. Ye, F. Chen, X. Xie, R. Peng, D. Xu, Q. Fan, H. Xu, J. Jiang, T. Zhang, X. Lai, T. Xiang, J. Hu, B. Xie, and D. L. Feng, “Interface-induced superconductivity and strain-dependent spin density waves in FeSe/SrTiO3 thin films” Nature Materials 12, 634–640 (2013) 2) Y. Zhang, Z. R. Ye, Q. Q. Ge, F. Chen, Juan Jiang, M. Xu, B. P. Xie, D. L. Feng*, “Nodal superconducting-gap structure in ferropnictide superconductor BaFe2(As0.7P0.3)2” Nature Physics 8, 371-375 (2012). 3) Y. Zhang … D. L. Feng, Nodeless superconducting gap in AxFe2Se2 (A=K, Cs) revealed by angle-resolved photoemission spectroscopy, Nature Materials 10, 273-277 (2011). 4) L. X. Yang … D. L. Feng, Electronic structure and unusual exchange splitting in the spin-density-wave state of the BaFe2As2 parent compound of iron-based superconductors Phys. Rev. Lett. 102, 107002 (2009). 5) H. W. Ou… D. L. Feng, Novel electronic structure induced by a highly strained oxide interface with incommensurate crystal fields Phys. Rev. Lett. 102 (2), 026806 (2009). 6) D. W. Shen … D. L. Feng, Primary role of the barely occupied states in the charge density wave formation of NbSe2 Phys. Rev. Lett.101, 226406 (2008). 7) B. P. Xie … D. L. Feng, High-energy scale revival and giant kink in the dispersion of a cuprate superconductor Phys. Rev. Lett. 98, 147001 (2007).
1994 中国科学技术大学学士
教学:讲授《大学物理》、《散射物理》、《强关联物理》等课程。
Experimental condensed matter physics. We study complex quantum materials, including correlated systems, cuprate and iron based superconductors, charge/spin/orbital ordered systems, and oxide interfaces etc. with synchrotron & laser-based spectroscopy and scattering techniques.