外围投注

外围投注:刘健鹏

时间:2020-05-12浏览:5927设置

健鹏课题组介绍


课题组长 

Group Leader



刘健鹏,助理教授、研究员

通讯地址:上海市浦东新区华夏中路393号外围投注

电子邮件:liujp@shanghaitech.edu.cn 

个人简历:

2006.9-2010.6,南开大学,学士

2010.9-2015.8,罗格斯大学,博士

2015.9-2018.3,加州大学圣巴巴菈分校,博士后

2018.5-2020.5,香港科技大学,研究助理教授

2020.5-今,十大外围投注平台,助理教授,研究员,PI

研究介绍 

Research Interest



我的研究领域主要是凝聚态理论以及量子材料体系的第一性原理计算。对量子材料体系中的电子结构、拓扑性质、库伦关联效应、以及输运和光学性质的理论研究和第一性原理计算有广泛兴趣。

近期的研究兴趣主要在三个方向:

(1) 转角以及摩尔二维体系中能带拓扑性、库伦关联效应、输运性质和光学性质的理论研究。例如,对转角双层石墨烯和转角多层石墨烯体系的拓扑性质、电子结构、关联绝缘态、轨道磁性态等新奇物态的理论研究,以及处理摩尔二维材料体系电子结构的计算方法研究。

(2) 磁性拓扑材料以及关联拓扑材料的电子结构和物性的理论研究。例如,对MnBi/Sb2Te4/(Bi/Sb2Te3)n 磁性拓扑体系、AV3Sb5 (A=K, Cs, Rb) 电荷密度波和超导体系、TaS2莫特绝缘体等材料电子结构和物性的理论研究。

(3) 量子材料非线性光学效应以及含时动力学的理论计算研究。

 

招聘信息 (Job openings)

本课题组现依托上科大拓扑物理实验室招聘助理研究员和博士后,从事转角二维材料体系、 磁性和相互作用拓扑材料体系、量子材料非平衡动力学等方向的理论和第一性原理计算研究。


博士后提供廉价校内公寓,年薪23-30万(由学:涂翁庾橹Ц叮,与个人经历相匹配。博士后出站后有机会留在拓扑物理实验室任职。优秀博士后可申请“博新计划”、“超博计划”等博士后计划,入选者上海市按照相关规定给与额外补贴。


助理研究员是有事业编制的正式职位,可晋升为副研究员、研究员,按学校规定,提供有竞争力的、可持续发展的薪酬。


课题组每年固定招收1-2名研究生。



发表论文 

Publications



Publications after joining ShanghaiTech  (* for (co-)corresponding author,  # for co-first authors):

30. Soohyun Cho#Haiyang Ma#Wei Xia#Yichen YangZhengtai LiuZhe HuangZhicheng JiangXiangle LuJishan LiuZhonghao LiuJinfeng JiaYanfeng Guo*Jianpeng Liu*Dawei Shen*,  Emergence of new van Hove singularities in the charge density wave state of a topological kagome metal RbV3Sb5 ,  arXiv:2105.05117

29. Hai-Yang MaMengli HuNana LiJianpeng LiuWang YaoJin-Feng Jia*Junwei Liu*Multifunctional antiferromagnetic materials with giant piezomagnetism and noncollinear spin current Nat. Commun., 12, 2846 (2021)

28. Shuchun Huan#, Shihao Zhang#, Zhicheng Jiang#, Hao Su, Hongyuan Wang, Xin Zhang, Yichen Yang, Zhengtai Liu, Xia Wang, Na Yu, Zhiqiang Zou, Dawei Shen*, Jianpeng Liu*, Yanfeng Guo*, Multiple magnetic topological phases in bulk van der Waals crystal MnSb4Te7,     Phys. Rev. Lett., 126, 246601 (2021) , Editor's suggestion

27.  Shihao Zhang and Jianpeng Liu*,  Spin polarized nematic order, quantum valley Hall states, and field tunable topological transitions in the correlated states of  moire graphene systems,   arXiv:2101.04711v2

26. ShengNan Zhang#, Bo Xie#, QuanSheng Wu*, Jianpeng Liu, Oleg Yazyev*, Chiral decomposition of twisted graphene multilayers with arbitrary stacking,  arXiv:2012.11965

25. C. Shen et al., Emergence of Chern insulating states in non-magic-angle twisted bilayer graphene,   Chin. Phys. Lett. Express Letter,  38 (4), 047301 (2021). 

24. Jianpeng Liu* and Xi Dai*,  Orbital magnetic states in moire graphene systems Nature Reviews Physics3, 367–382 (2021)

23. Jianpeng Liu* and Xi Dai*, Topological properties and orbital magnetism in twisted graphene systems, invited review, Acta Physica Sinica2020, 69 (14):147301

22. Mingqiang GuJiayu LiHongyi SunYufei ZhaoChang LiuJianpeng Liu*, Haizhou Lu, Qihang Liu*, Spectral signatures of surface anomalous Hall effect in magnetic axion insulators,  Nat. Commun., 12, 3524 (2021)

21. QuanSheng Wu*, Jianpeng Liu*, Yifei Guan, Oleg V. Yazyev*, Landau levels as probe for band topology in graphene moire superlattices,   Phys. Rev. Lett., 126, 056401 (2021) 


Publications prior to ShanghaiTech

20. Si-Yu Li, Yu Zhang, Ya-Ning Ren, Jianpeng Liu*, Xi Dai, Lin He*,  Experimental evidence for orbital magnetic moments generated by moire-scale current loops in twisted bilayer graphene.  Phys. Rev. B (R) 102, 121406 (2020), Editor's suggestion

19. Jianpeng Liu, and Xi Dai, Theoreies for the correlated insulating states and the quantum anomalous Hall phenomena in twisted bilayer graphene.    Phys. Rev. B 103, 035427 (2021), Editors' suggestion.

18. Jianpeng Liuand Xi Dai,  Anomalous Hall effect, magneto-optical properties, and nonlinear optical properties of twisted graphene systems.   npj Computational Materials, 6, 57 (2020)

17. Jianpeng Liu*, Zhen Ma, Jinhua Gao, and Xi Dai, Quantum valley Hall effect, orbital magnetism, and anomalous Hall effect in twisted graphene multilayers.   Phys. Rev. X 9, 031021 (2019)

16.  Jianpeng Liu,  Junwei Liu, and Xi Dai, Pseudo-Landau-level representation of twsited bilayer graphene: band topology and implications on the correlated insulating phases.    Phys. Rev. B 99, 155415 (2019)

15. W. Jin, S. Li, J. Liu, Q. Han, Z. Porter, C. Peterson, I. Boulares1, K. Sun, R. Merlin, S. D. Wilson, L. Zhao,  A unidirectional charge order in (Sr1-xLax)3Ir2O7 revealed by polarized Raman spectroscopy, Phys. Rev. B, 99, 041109 (2019)

14. Kasra Hejazi, Jianpeng Liu, Leon Balents, Floquet spin and spin-orbital Hamiltonians and doublon-holon generations in periodically driven Mott insulators.  Phys. Rev. B 99, 205111 (2019)

13. T. Suzuki, L. Savary, J. Liu, J. W. Lynn, L. Balents, and J. G. Checkelsky,  Singular angular magnetoresistance and spontaneous symmetry breaking in a magnetic nodal semimetal.  Science, 365, 377-381 (2019)

12Jianpeng Liu, Kasra Hejazi, and Leon Balents, Floquet engineering of multi-orbital Mott insulators: applications to orthorhombic titanates. Phys. Rev. Lett. 121, 107201 (2018)

11. Jianpeng Liu and Leon Balents, Anomalous Hall effect and topological defects in antiferromagnetic Weyl semimetals: Mn3Sn/Ge.   Phys. Rev. Lett. 119, 087202 (2017)

10.  W. Jin, S. Vishwanath, J. Liu, L. Kong, R. Lou, Z. Dai, J. T. Sadowski, X. Liu, H. Lien, J. Ma, T. Qian, J. I. Dadap, K. Pohl, S. Wang, J. Furdyna, H. Ding, H. G. Xing, and R. M. Osgood, Jr, Electronic structure of the metastable epitaxial rock-salt SnSe {111} topological crystalline insulator.   Phys. Rev. X, 7, 041020 (2017)

9. Jianpeng Liu and Leon Balents, Correlation effects and quantum oscillations in topological nodal-loop semimetals.  Phys. Rev. B, 95 075426 (2017)

8. Jianpeng Liu, Se Young Park, Kevin F. Garrity and David Vanderbilt,  Flux states and topological phases from spontaneous time-reversal symmetry breaking in CrSi(Ge)Te3-based systems.  Phys. Rev. Lett. 117, 257201(2016)

7. Huaqing Huang, Jianpeng Liu, David Vanderbilt and Wenhui Duan, Topological nodal-line semimetals in alkaline-earth stannides, germanides and silicides.  Phys. Rev. B . 93, 201114 (2016)

6. M. Brahlek, N. Koirala, J. Liu, T. I. Yusufaly, M. Salehi, M. Han, Y. Zhu, D. Vanderbilt, and S. Oh,  Tunable Inverse topological heterostructures utilizing (BixIn1-x)2Se3 and multichannel weak-antilocalization effects.   Phys. Rev. B 93, 125416 (2016)

5. Jianpeng Liu and David Vanderbilt,Gauge-discontinuity contributions to Chern-Simons orbital magnetoelectric coupling.  Phys. Rev. B 92 (24), 245138 (2015)

4. Jianpeng Liu and David Vanderbilt, Weyl semimetals from noncentrosymmetric topological insulators. Phys. Rev. B 90, 155316 (2014). Editors' suggestion in PRB.

3. Huaqing Huang, Jianpeng Liu and Wenhui Duan, Nontrivial Z2 Topology in Bismuth-based III-V Compounds.  Phys. Rev. B 90, 195105 (2014)

2. Jianpeng Liu and David Vanderbilt, Spin-orbit spillage as a measure of band inversion in insulators.  Phys. Rev. B 90, 125133 (2014)

1. Jianpeng Liu and David Vanderbilt, Topological phase transitions in (Bi1-xInx)2Se3 and (Bi1-xSbx)2Se3.  Phys. Rev. B 88, 224202 (2013)




本组成员 

Group Members



博士后            

姓名:张世豪  职位:博士后,  中科院物理所博士

研究方向:转角二维材料理论研究, 拓扑材料第一性原理计算

邮箱: zhangshh1@shanghaitech.edu.cn

办公室:外围投注6号楼


姓名:马海洋  职位:博士后,  上海交通大学博士

研究方向: kagome体系、拓扑材料第一性原理计算

邮箱: mahy1@shanghaitech.edu.cn

办公室:外围投注8号楼206


学生

姓名:郭忠青   职位:2020级硕士生,  吉林大学学士

研究方向:磁性拓扑材料第一性原理计算

邮箱:guozhq1@shanghaitech.edu.cn

办公室:外围投注8号楼206


姓名:石嫣然   职位:2020级硕士生,  十大外围投注平台学士

研究方向:二维材料理论计算

邮箱:shiyr@shanghaitech.edu.cn

办公室:外围投注8号楼206


姓名:解博   职位:2021级硕士生,  十大外围投注平台学士

研究方向:转角二维材料理论研究

邮箱:xiebo@shanghaitech.edu.cn

办公室:外围投注8号楼206


姓名:李敏    职位:2021级硕士生,  湘潭大学学士

研究方向:二维材料理论研究

办公室:外围投注8号楼206


姓名:彭然    职位:科研助理,  十大外围投注平台学士

研究方向:转角石墨烯理论研究

邮箱:pengran@shanghaitech.edu.cn

办公室:外围投注8号楼206


           




















  


  


  

  


  


  


         


    



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