复杂量子材料及其微结构研究组
Complex Quantum Materials Lab
Complex Quantum Materials Lab
王义林
发布时间:2021-11-01
王义林
特任研究员 博士生导师
中国科学技术大学 未来技术学院
邮箱:yilinwang@ustc.edu.cn
主要经历:
2010年本科毕业于中国人民大学物理系
2016年博士毕业于中国科学院物理研究所
2016-2020年于美国布鲁克海文国家实验室从事博士后工作
2020年9月加入中国科学技术大学未来技术学院,任特任研究员。
研究兴趣:
主要从事凝聚态量子材料、模型和X¬-射线光谱学的理论计算和模拟。包括:使用密度泛函结合动力学平均场(DFT+DMFT)研究强关联量子材料的电子结构、磁性和拓扑性质,重点关注多轨道的体系;使用数值重整化群(NRG)和共形场论(CFT)方法研究多轨道的Anderson和Kondo杂质模型;基于精确对角化方法(ED)理论模拟X-射线吸收谱(XAS)和共振非弹性散射谱(RIXS);发展连续时间量子蒙特卡罗(CTQMC)、DFT+DMFT、XAS、RIXS的数值计算方法和相关软件开发。
研究成果:
参与开发了连续时间量子蒙特卡洛软件包iQIST (https://github.com/iqist/iqist) ,独立开发了X-射线谱学模拟软件EDRIXS (https://github.com/NSLS-II/edrixs)。使用这些软件和方法进行量子材料新奇物理性质的研究和预测,发表了多篇重要工作。
其中代表性的工作包括:
(1)在LaCoO3的双层薄膜中预测了量子反常霍尔效应(QAHE)的存在;
(2)解释了Eu2Ir2O7里实验观察到的非线性磁响应,并预言了多极矩的存在;
(3)率先建立了用RIXS探测关联材料里的dimer轨道的理论方法;
(4)在3-channel的自旋-轨道Kondo模型里发现了新的量子临界点和一个新的非费米液体态;
(5)DFT+DMFT计算确认了新型镍基超导体Nd1-xSrxNiO2的多轨道本质;
(6)解释了5d关联自旋-轨道耦合金属材料Cd2Re2O7里的”bad metal”到”good metal”的新奇相变。
代表文章:
• Rui Wang, Yilin Wang, Y. X. Zhao, and Baigeng Wang, Emergent Kondo behavior from gauge fluctuations in spin liquids, Physical Review Letters 127,237202 (2021)
• Jianzhou Zhao*, Yilin Wang*, Xiaolong Feng, and Shengyuan A. Yang, Electronic correlations and absence of superconductivity in the collapsed phase of LaFe2As2, Physical Review B 103, 125125 (2021)
• Jianzhou Zhao*, Weikang Wu, Yilin Wang*, and Shengyuan A. Yang, Electronic correlations in the normal state of the kagome superconductor KV3Sb5, Physical Review B 103, L241117 (2021)
• Wen-Xuan Qiu, Jin-Yu Zou, Ai-Yun Luo, Zhi-Hai Cui, Zhi-Da Song, Jin-Hua Gao, Yi-lin Wang*, and Gang Xu*, Efficient Method for prediction of Metastable or Ground Multipolar Ordered States and Its Application in Monolayer -RuX3 (X=Cl, I), Physical Review Letters 127, 147202 (2021)
• Yilin Wang, C.-J. Kang, H. Miao and G. Kotliar, Hund’s metal physics: from SrNiO2 to LaNiO2, arXiv:2005.153305 (2020), Phys. Rev. B 102,161118(R) (2020)
• Yilin Wang, E. Walter, S.-S. B. Lee, K. M. Stadler, J. von Delft, A. Weichselbaum, G. Kotliar, Global phase diagram of a spin-orbital Kondo impurity model and the suppression of Fermi-liquid scale, Phys. Rev. Lett. 124, 136406 (2020)
• Yilin Wang, Ruitang Wang, Jungho Kim, M.H. Upton, D. Casa, T. Gog, G. Cao, G. Kotliar, M.P.M. Dean, X. Liu, Direct Detection of Dimer Orbitals in Ba5AlIr2O11, Phys. Rev. Lett. 122, 106401 (2019)
• Yilin Wang, G. Fabbris, M.P.M. Dean, G. Kotliar, EDRIXS: An open source toolkit for simulating spectra of resonant inelastic x-ray scattering, Comput. Phys. Commun. 243, 151 (2019)
• Yilin Wang, Hongming Weng, Liang Fu, Xi Dai, Noncollinear Magnetic Structure and Multipolar Order in Eu2Ir2O7, Phys. Rev. Lett. 119, 187203 (2017)
• Yilin Wang, G. Fabbris, D. Meyers, N.H. Sung, R. E. Baumbach, E.D. Bauer, P.J. Ryan, J.-W. Kim, X. Liu, M.P.M. Dean, G. Kotliar, X. Dai, On the possibility to detect multipolar order in URu2Si2 by the electric quadrupolar transition of resonant elastic x-ray scattering, Phys. Rev. B 96, 085146 (2017)
• Yilin Wang, Li Huang, Liang Du, Xi Dai, Doping-driven orbital-selective Mott transition in multi-band Hubbard models with crystal field splitting, Chinese Phys. B 25, 037103 (2016)
• Yilin Wang, Zhijun Wang, Zhong Fang, Xi Dai, Interaction-induced quantum anomalous Hall phase in (111) bilayer of LaCoO3, Phys. Rev. B 91, 125139 (2015)
• Li Huang, Yilin Wang, Zi Yang Meng, Liang Du, Philipp Werner, Xi Dai, iQIST: An open source continuous-time quantum Monte Carlo impurity solver toolkit, Comput. Phys. Commun. 195, 140 (2015)