郭朋杰-中国人民大学物理学系

材料计算与物质模拟

郭朋杰副教授

办公地点：北园物理楼307B

电子邮箱：guopengjie@ruc.edu.cn

电　　话：

传　　真：

研究组主页：

教育经历

2007年9月-2011年7月：郑州大学物理学院，理学学士。

2013年9月-2016年7月：中国人民大学物理系，理学硕士。

2016年9月-2020年1月：中国人民大学物理系，理学博士。

工作经历

2020年1月-2023年7月：中国科学院物理研究所松山湖材料实验室，博士后。

2023年7月至今：中国人民大学物理系，副教授。

研究兴趣

计算凝聚态物理。主要采用对称性分析和第一性原理方法从事实际材料的计算和模拟研究，包括：

（1）非常规磁性材料的新奇物理性质；

（2）低维磁性体系的新奇拓扑相和物理性质；

（3）基于预训练模型预测非常规磁性材料。

人才培养

拟每年招收硕士或博士研究生1-2名，欢迎本科生加入课题组。

主要工作和成果

1. Peng-Jie Guo*, Yi-Wen Wei, Kai Liu, Zheng-Xin Liu*and Zhong-Yi Lu, Eightfold Degenerate Fermions in Two Dimensions, Phys. Rev. Lett. 127, 176401 (2021).

2. Peng-Jie Guo*, Zheng-Xin Liu* and Zhong-Yi Lu*, Quantum anomalous hall effect in collinear antiferromagnetism, npj Computational Materials 9, 70 (2023).

3. Peng-Jie Guo#, Chen Peng#, Zheng-Xin Liu, Kai Liu and Zhong-Yi Lu, Symmetry-enforced two-dimensional Dirac node-line semimetals, Mater. Futures 2, 011001(2023).

4. Xiao-Yao Hou, Huan-Cheng Yang, Zheng-Xin Liu, Peng-Jie Guo*, and Zhong-Yi Lu*, Large intrinsic anomalous Hall effect in both Nb2FeB2 and Ta2FeB2 with collinear antiferromagnetism, Phys. Rev. B 107, L161109 (2023).

5. Xinlei Zhao, Fengjie Ma*, Peng-Jie Guo*, and Zhong-Yi Lu, Two-dimensional quadratic double Weyl semimetal, Phys. Rev. Res. 4, 043183 (2022)

6. Peng-Jie Guo, Xiao-Qin Lu, Wei Ji, Kai Liu, and Zhong-Yi Lu, Quantum spin Hall effect in monolayer and bilayer TaIrTe4, Phys. Rev. B 102, 041109 (R) (2020).

7. Peng-Jie Guo, Huan-Cheng Yang, Kai Liu, and Zhong-Yi Lu, Triply degenerate nodal points in RRh6Ge4 (R = Y, La, Lu), Phys. Rev. B 98, 045134 (2018).

8. Peng-Jie Guo, Huan-Cheng Yang, Kai Liu, and Zhong-Yi Lu, Theoretical study of the pressure-induced topological phase transition in LaSb, Phys. Rev. B 96, 081112 (R) (2017).

9. Peng-Jie Guo, Huan-Cheng Yang, Kai Liu, and Zhong-Yi Lu, Type-II Dirac semimetals in the YPd2Sn class, Phys. Rev. B 95, 155112 (2017).

10. Peng-Jie Guo, Huan-Cheng Yang, Kai Liu, and Zhong-Yi Lu, Charge compensation in extremely large magnetoresistance materials LaSb and LaBi
revealed by first-principles calculations, Phys. Rev. B 93, 235142 (2016).

11. Sheng Xu^#, Chang-Hua Bao^#, Peng-Jie Guo^#, Yi-Yan Wang^#, Qiao-He Yu, Lin-Lin Sun, Yuan Su, Kai Liu, Zhong-Yi Lu, Shu-Yun Zhou, and Tian-Long Xia, Interlayer quantum transport in Dirac semimetal BaGa2 , Nat. Commun. 11, 2370 (2020).

12. Zhonghao Liu#, Rui Lou#, Pengjie Guo, Qi Wang, Shanshan Sun, Chenghe Li, Setti Thirupathaiah, Alexander Fedorov, Dawei Shen, Kai Liu, Hechang Lei, and Shancai Wang, Experimental Observation of Dirac Nodal Links in Centrosymmetric Semimetal TiB2, Phys. Rev. X 8, 031044 (2018)

13. Qi Liu#, Peng-Jie Guo#, Xiao-Yu Yue, Zhe-Kai Yi, Qing-Xin Dong, Hui Liang, Dan-Dan Wu, Yan Sun, Qiu-Ju Li, Wen-Liang Zhu, Tian-Long Xia,* Xue-Feng Sun,* and Yi-Yan Wang*, Observation of Surface Superconductivity in a 3D Dirac Material，Adv. Funct. Mater. 2022, 2208616.

14. Deping Guo#, Pengjie Guo#, Shijing Tan, Min Feng, Limin Cao, Zheng-Xin Liu, Kai Liu, Zhong-Yi Lu, Wei Ji，Two-dimensional Dirac-line semimetals resistant to strong spin–orbit coupling, Science Bulletin 67, 1954 (2022).

15. Rui Lou^#, Peng-jie Guo^#, Man Li^#, Qi Wang, Zhonghao Liu, Shanshan Sun, Chenghe Li, Xuchuan Wu, Zilu Wang, Zhe Sun, Dawei Shen, Yaobo Huang, Kai Liu, Zhong-Yi Lu, Hechang Lei, Hong Ding, Shancai Wang, Experimental observation of bulk nodal lines and electronic surface states in ZrB2, npj quantum materials 3, 43 (2018).

16. Yan Gao#, Peng-Jie Guo#, Kai Liu , and Zhong-Yi Lu，RRuB2 (R = Y, Lu), topological superconductor candidates with hourglass-type Dirac ring, Phys. Rev. B 102, 115137 (2020).

17. Yi-Yan Wang^#, Peng-Jie Guo^#, Qiao-He Yu, Sheng Xu, Kai Liu and Tian-Long Xia, Magneto-transport and electronic structures of BaZnBi2 , New J. Phys 19, 123044 (2017).

18. Qi Wang^#, Peng-Jie Guo^#, Shan Shan Sun, Cheng He Li, Kai Liu, Extremely large magnetoresistance and high-density Dirac-like fermions in ZrB2, Zhong-Yi Lu, and He Chang Lei, Phys, Rev. B, 95, 155112 (2018).

19. Shan-Shan Sun^#, Qi Wang^#, Peng-Jie Guo^#, Kai Liu and He-Chang Lei, Large magnetoresistance in LaBi: origin of field-induced resistivity upturn and plateau in compensated semimetals, New J. Phys, 18, 082002 (2016).

20. W. L. Zhu#, Y. Cao#, Peng-Jie Guo^#, X. Li, Y. J. Chen, L. J. Zhu, J. B. He, Y. F. Huang, Q. X. Dong, Y. Y. Wang, R. Q. Zhai, Y. B. Ou, G. Q. Zhu, H. Y. Lu, G. Li, G. F. Chen, and M. H. Pan，Linear magnetoresistance induced by mobility fluctuations in iodine-intercalated tungsten ditelluride, Phys. Rev. B 105, 125116 (2022).

21. Qi Liu#, Peng-Jie Guo#, Sheng Xu, Xiao-Yu Yue, Huan Wang, Xiao-Yan Wang, Hui Liang, Dan-Dan Wu, Yan Sun, Qiu-Ju Li, Tian-Long Xia, Xue-Feng Sun, and Yi-Yan Wang, Quantum Oscillation and Electronic Structure of Sn4As3 and Sn4P3, J. Phys. Chem. C 127, 4319 (2023).