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张磊
发布时间:2023-12-26 浏览:

张磊

教授,山西省**特聘专家

教育背景:

200909–201208 香港大学哲学博士

200709–200908 香港大学哲学硕士

200309–200708 山西大学理学学士(物理学国家基地专业)

工作经历:

202112至今                   教授(三级),山西大学

201712–202111       教授(四级),山西大学

201603–201711       教师,山西大学

201304–201602       博士后, 加拿大麦吉尔大学物理系

201209–201303月   高级研究助理,香港大学物理系

研究方向:

     主要从事凝聚态物理理论及数值模拟的研究工作。研究方向包括:介观纳米体系量子输运、低维量子材料光响应、拓扑光子晶体等方面的研究。

主持项目:

国家自然科学基金青年项目和面上项目、山西省**项目、山西省自然科学基金面上项目、山西省回国留学人员科研资助项目。

论文发表:

已发表SCI论文80余篇,包括Nature, Nature Communications, Phys. Rev. Lett., Phys. Rev. B, Laser Photonics Rev., New J. Phys.等期刊。详细论文发表及引用情况可参看链接:https://scholar.google.com/citations?user=2PLJcCsAAAAJ&hl=en

近期部分代表性论文成果:

1. “Topological Anderson Amorphous Insulator”, Phys. Rev. B 108, L081110 (2023); Xiaoyu Cheng, Tiantao Qu, Liantuan Xiao, Suotang Jia, Jun Chen*, and Lei Zhang.

2. “Quantum nonlinear ac transport theory at low frequency”; New J. Phys., 25, 113006 (2023); Lei Zhang, Fuming Xu, Jian Chen, Yanxia Xing and Jian Wang*.

3. “Giant tunnel electroresistance in two-dimensional ferroelectric tunnel junctions constructed with Sc2CO2/In2Se3van der Waals ferroelectric heterostructure”, Phys. Rev. B. 107, 115427 (2023); Aijie Xie, Hua Hao, Chun-Sheng Liu, Xiaohong Zheng*, Lei Zhang, and Zhi Zeng.

4. “Anomalous lateral optical force as a manifestation of the optical transverse spin”, Laser Photonics Rev. 17, 2300212 (2023); Xinning Yu, Yaxin Li, Bijun Xu, Xiaogang Wang, Lei Zhang*, Jun Chen, Zhifang Lin, and C. T. Chan.

5. “Greatly enhanced tunneling electroresistance in ferroelectric tunnel junctions with a double barrier design”, npj Computational Materials, 9, 144 (2023); Wei Xiao, Xiaohong Zheng*, Lili Kang, Lei Zhang, and Zhi Zeng.

6. “Unified framework of the microscopic Landau-Lifshitz-Gilbert equation and its application to skyrmion dynamics”, Phys. Rev. B 108, 144409 (2023); Fuming Xu, Gaoyang Li, Jian Chen, Zhizhou Yu, Lei Zhang*, Baigeng Wang, and Jian Wang.

7. “Fate of the reentrant localization phenomenon in the one-dimensional dimerized quasiperiodic chain with long-range hopping”, Phys. Rev. B, 107, 075128 (2023); Haoyu Wang, Xiaohong Zheng, Jun Chen*, Liantuan Xiao, Suotang Jia, Lei Zhang.

8. “Reentrant quantum spin Hall effect in the presence of exchange field”; Phys. Rev. B 107, 035117 (2023); Xiaoyu Cheng, Xiaohong Zheng, Jun Chen*, Liantuan Xiao, Suotang Jia, Lei Zhang.

9. “Electric field induced tunable half-metallicity in A-type antiferromagnetic bilayer LaBr2”; Phys. Rev. B, 106, 245423 (2022); Qingqing Chen, Xiaohong Zheng*, Peng Jiang, Yan-Hong Zhou, Lei Zhang, and Zhi Zeng.

10. “Observation of boundary induced chiral anomaly bulk states and their transport properties”; Nature Communications 13, 5916 (2022); Mudi Wang, Qiyun Ma, Shan Liu, Ruoyang Zhang, Lei Zhang, Manzhu Ke, Zhengyou Liu, C. T. Chan.

11. “Flexible electromagnetic manipulation by topological one-way large-area waveguide states”; Phys. Rev. B, 105, 195432 (2022); Tiantao Qu, Neng Wang, Mudi Wang, Lei Zhang, Jun Chen*.

12. “Giant tunneling electroresistance induced by interfacial doping in Pt/BaTiO3/Pt ferroelectric tunnel junctions”; Phys. Rev. Applied, 17, 044001 (2022); Wei Xiao, Lili Kang, Hua Hao, Yanhong Zhou, Lei Zhang*, Xiaohong Zheng, and Zhi Zeng.

13. “Near-field energy transfer between graphene and magneto-optic media”; Phys. Rev. Lett. 127, 247401 (2021); Gaomin Tang*, Lei Zhang, Yong Zhang, Jun Chen, C. T. Chan.

14. “Anti-chiral edge states and hinge states based on the Haldane model”; Phys. Rev. B, 104, L081401 (2021); Xiaoyu Cheng, Jun Chen*, Lei Zhang, Liantuan Xiao, Suotang Jia.

15. “Experimental observation of non-Abelian topological charges and bulk-edge correspondence”; Nature 594, 195 (2021); Qinghua Guo, Tianshu Jiang, Ruo-Yang Zhang, Lei Zhang, Zhao-Qing Zhang, Biao Yang, Shuang Zhang, C. T. Chan.

16. “An electrically switchable anti-ferroelectric bilayer In2Se3 based opto-spintronics device”; Nanoscale 13, 8555 (2021); Yaqing Yang, Liwen Zhang, Jun Chen, Xiaohong Zheng*, Lei Zhang, Liantuan Xiao, Suotang Jia.

17. “Giant tunnel electroresistance in ferroelectric tunnel junctions with metal contacts to two-dimensional ferroelectric materials”; Phys. Rev. B 103, 125414 (2021); Lili Kang, Peng Jiang, Hua Hao, Yanhong Zhou, Xiaohong Zheng*, Lei Zhang, and Zhi Zeng.

18. “Topological one-way large-area waveguide states in magnetic photonic crystals”; Phys. Rev. Lett. 126, 067401 (2021); Mudi Wang, Ruo-Yang Zhang, Lei Zhang, Dongyang Wang, Qinghua Guo, Zhao-Qing Zhang, and C. T. Chan.

19. “Twist-induced near-field thermal control between magnetic Weyl semimetals"; ACS Photonics. 8, 443 (2021); Gaomin Tang*, Jun Chen, Lei Zhang.

20. “Gate tunable self-powered few-layer black phosphorus broadband photodetector”; Phys. Chem. Chem. Phys. 23, 399 (2021), Xiaofei Guo, Liwen Zhang, Jun Chen*, Xiaohong Zheng, Lei Zhang.

21. “Gate controllable optical spin current generation in zigzag graphene nanoribbon”; Carbon. 173, 565 (2021), Liwen Zhang, Jun Chen*, Lei Zhang, Fuming Xu, Liantuan Xiao, Suotang Jia.

22. “Pure spin current generation via photogalvanic effect with spatial inversion symmetry”; Phys. Rev. B. 102, 081402(R) (2020); Xixi Tao, Peng Jiang, Hua Hao, Xiaohong Zheng*, Lei Zhang, and Zhi Zeng.

23. “Giant tunneling electroresistance in two-dimensional ferroelectric tunnel junctions with out-of-plane ferroelectric polarization”; Phys. Rev. B. 101, 014105 (2020); Lili Kang, Peng Jiang, Yanhong Zhou, Hua Hao, Xiaohong Zheng*, Lei Zhang, Zhi Zeng.

24. “Realizing giant tunneling electroresistance in two-dimensional graphene/BiP ferroelectric tunnel junction”; Nanoscale. 11, 16837 (2019); Lili Kang, Peng Jiang, Ning Cao, Hua Hao, Xiaohong Zheng*, Lei Zhang, Zhi Zeng.

25. “Gate-tunable large spin polarization in few-layer black phosphorus based spintronic device”; Nanoscale. 11, 11872 (2019), Liwen Zhang, Jun Chen, Xiaohong Zheng, Bin Wang*, Lei Zhang, Liantuan Xiao, Suotang Jia.

26. “Frequency-dependent transport properties in disordered systems: A generalized coherent potential approximation approach”; Phys. Rev. B. 99, 155406 (2019); Lei Zhang, Bin Fu, Bin Wang, Yadong Wei, and Jian Wang*.

27. “Realizing robust half-metallic transport with chemically modified graphene nanoribbons”; Carbon. 141, 676 (2019), Lingling Song*, Shaopeng Jin, Peng Jiang, Hua Hao, Xiaohong Zheng*, and Lei Zhang.

28. “Photogalvanic effect induced fully spin polarized current and pure spin current in zigzag SiC nanoribbons”; Phys. Chem. Chem. Phys. 20, 26744 (2018), Jun Chen, Liwen Zhang, Lei Zhang*, Xiaohong Zheng, Liantuan Xiao, Suotang Jia, and Jian Wang.

29. “Magnetization dynamics induced by Rashba effect in ferromagnetic films”; Nanoscale. 10, 18728 (2018), Zhizhou Yu, Jian Chen, Lei Zhang, Yanxia Xing, and Jian Wang*.

30. “Thermal rectification in a double quantum dots system with a polaron effect”; Phys. Rev. B. 97, 224311 (2018), Gaomin Tang, Lei Zhang*, Jian Wang*.

31. “A novel volatile memory device based on few-layer black phosphorus”; Journal of Materials Chemistry C (Back Cover). 6, 2460-2466 (2018), Liwen Zhang, Zhizhou Yu, Lei Zhang*, Xiaohong Zheng*, Liantuan Xiao, Suotang Jia, Jian Wang.

32. “h-BN/Graphene van der Waals vertical heterostructure: A fully spin-polarized photocurrent generator”; Nanoscale. 10, 174-183 (2018), Xixi Tao, Lei Zhang*, Xiaohong Zheng*, Hua Hao, Xianlong Wang, Lingling Song, Zhi Zeng, and Hong Guo.

33. “Influence of dephasing and B/N doping on valley Seebeck effect in zigzag graphene nanoribbons”; Carbon. 126, 183 (2018), Lei Zhang, Zhizhou Yu, Fuming Xu, Jian Wang*.

34. “Full counting statistics of conductance for disordered systems”; Phys. Rev. B. 96, 115410 (2017); Bin Fu, Lei Zhang*, Yadong Wei, and Jian Wang*.

35. “Tuning zigzag SiC nanoribbon as a thermal spin current generator”; 2D Mater. 4, 035001 (2017); Peng Jiang, Xixi Tao, Hua Hao, Lingling Song, Xiaohong Zheng*, Lei Zhang*, and Zhi Zeng.

36. “Perfect spin and valley polarized quantum transport in twisted SiC nanoribbons”; 2D Mater. 4 025013 (2017); Xiaohong Zheng*, Xiaobin Chen, Lei Zhang*, Liantuan Xiao, Suotang Jia, Zhi Zeng and Hong Guo.

37. “Quantum transport investigation of anomalous Hall resistance in four-probe magnetic nanostructures”; Phys. Rev. B. 94, 081409(R) (2016); Lei Zhang, Kui Gong, Lei Liu, Yu Zhu, Guanghua Yu, and Hong Guo.

38. “RESCU: A real space electronic structure method.”; Journal of Computational Physics. 307, 593 (2016); Vincent Michaud-Rioux*, Lei Zhang*, and Hong Guo*.