广大师生:
华南理工大学“海内外优秀青年学者论坛”于2015年11月首次启动,旨在面向全球邀请拥有不同学术背景的青年才俊,围绕国际科学前沿、热点研究领域以及行业产业的技术问题等展开探讨和交流。通过这个平台,互相启迪、开拓视野,增强国际交流与合作,促进双方共同发展。
一、论坛时间
2016年4月14日
二、地点
华南理工大学五山校区18号楼2楼报告厅
三、论坛议程
| 日期 | 时间 | 事项或议程 |
| 4月14日(周四)下午 | 14:40-14:45 开幕式 主持人:刘正猷 | 学院领导致欢迎词 |
| 14:45-15:45 学术报告 主持人:刘正猷 | 题目:铁基超导体与拓扑物质态的第一性原理计算研究 报告人:徐刚 博士,美国斯坦福大学物理系 |
欢迎广大师生参加!
华南理工大学物理与光电学院
2016年4月11日
附:
报告摘要:In this talk, reporter would like to introduce some impressive studies in the Fe-based superconductors and topological matters. These include: 1) We have calculated the magnetic diagram of LaOMAs (M=V-Cu), in which we first point out that FeAs layer and magnetic instability are responsible for the superconducting paring in Fe-based superconductors. This paper is selected as ‘Top hundred outstanding scientific and technological papers of china’ in 2008. 2) We firstly predicted the stripe anti-ferromagnetic ground state in LaOFeAs, and claim it as the Fermi surfaces nesting induced spin-density-wave state. This work is the important paper for Natural Science Prize on iron-based superconductors. 3) From first principles calculations, we show that the magnetic properties at hole-doped side are different from its electron-doped counterparts in BaFe2As2, and identified that it is mainly originated from their asymmetric electronic structure. Their influence on the magnetic states and superconductivity for both doping side is also studied. 4) We have generalized the topological classification from the insulator to semimetal, and predicted that a novel quantum state with topologically unavoidable band-crossing at Fermi level can be realized in ferromagnetic compound HgCr2Se4. This state is a condensed-matter realization of the Weyl fermions in (3+1) D, and should exhibits remarkable features, such as magnetic monopoles, Fermi arcs, as well as QAH effect. 5) We have proposed two new systems to realize High-temperature Quantum anomalous Hall effect (QAHE), which opens a new direction for the exploration of the topological states. 6) We have given two new proposals to realize the topological superconductivity and Majorana fermions. These works pave an effective way of the TSC and Majorana fermions and suggest the future application in the fault-tolerant quantum computation.
报告人简介: 徐刚博士2010年于中科院物理所获得博士学位,2010-2015年在中科院物理所任助理研究员、副研究员,从2012年11月至今在斯坦福大学张守晟组做访问学者,长期从事新型材料的电子结构计算和物性研究。主要研究领域包括铁基超导材料和拓扑材料,并在这两个领域都取得了大量突破性进展和重要研究成果;它们包括: 1)最先研究了LaOFeAs系列材料的电子结构和磁性相图,指认了FeAs层及其磁不稳定性在铁基超导中的重要性。2)成功预言了LaOFeAs中的条纹状反铁磁结构,指出了nesting effect在铁基超导中的重要作用——该工作是铁基超导评选自然科学一等奖的重要成果之一。3)系统研究了铁基材料中电子结构在电子掺杂和空穴掺杂时的不对称性以及与之相关的物理现象,包括磁性基态,超导温度,配对机制等随掺杂的变化相图。4)首次将凝聚态中电子态按照拓扑分类的概念从绝缘体推广到了半金属;成功预言了铁磁半金属HgCr2Se4中受拓扑保护的Weyl费米子,该文开启了Weyl 费米子的研究热潮;成功预言了Na3Bi中受晶体对称性保护的三维Dirac费米子,该结果已被实验证实,引用达300多次。5)提出了两种实现高工作温度的量子反常霍尔效应的新方案,相关工作发表在Nano letter和PRL。6)提出了两种实现拓扑超导的新方案,为实现拓扑超导指明了新方向。目前共发表论文30余篇,引用2600余次,H-index 20,其中PRL 7篇,Nature Nanotechnology 2篇, Nature communication 1篇,Nano letters 2篇。