基本信息

朱振刚  男  博导  电子电气与通信工程学院
电子邮件: zgzhu@ucas.ac.cn
通信地址: 北京市玉泉路19号甲,中国科学院大学电子电气与通信工程学院
邮政编码: 100049

研究领域

欢迎有志于凝聚态物理理论的青年才俊加入!

欢迎保送生随时联系!


  • 我们研究凝聚态系统的整体性质(对称性和拓扑),局域性质(多体强关联),以及二者的关系!

  • 我们思考大宇宙是如何映射到凝聚态“宇宙”中,对称性破缺与演生,大标度体系的整体拓扑性质如何影响了局域动力学行为以及相反的影响?

  • 我们寻找志同道合的同学,并享受自由探索的乐趣!


包括但不局限于以下方向:拓扑超导体、拓扑物性、拓扑量子计算、低维量子系统、自旋电子学、磁性和强关联、能源材料、半导体物理及微电子器件


请点击图片转到来源网站


“关联量子体系的量子输运及量子耗散”研讨会成功举办


工作简介之一:二阶非线性响应研究中取得新进展

工作简介之二:非线性反常热霍尔效应研究中取得新进展

工作简介之三:我科学家提出的谷能斯特效应被法国科学家实验证实


工作简介之四:单层二硫化钼中掺杂Co原子的巨大能谷Zeeman劈裂

工作简介之五:新效应-拓扑非线性能斯特效应

工作简介之六:Spin-Caloritronic Batteries

单层MoS2类材料构成的H型器件,一臂的温度梯度驱动横向纯自旋流和能谷电流进入另一臂,由逆自旋霍尔效应转为电压输出。其ZT没有通常热电器件的电热联动约束。

工作简介之七:提出石墨烯吸附磁性原子的多味多通道Kondo效应

             




招生信息

   
招生专业
080903-微电子学与固体电子学
070205-凝聚态物理
招生方向
自旋电子学及器件
欢迎报考硕士、博士

欢迎有志于基础凝聚态理论的同学报考或免试推荐,希望你对以下方向感兴趣:

拓扑物性、二维新材料、多体强关联、拓扑量子计算

希望你能在此体悟到“致广大而尽精微”之境!

坚凝意志之人勿扰!

无热情、好奇心之人勿扰!

教育背景

2000-09--2003-07   中国科学院研究生院   博士
1997-09--2000-07   兰州大学物理系   硕士
1993-09--1997-07   兰州大学物理系   学士

工作经历

   
工作简历
2013-01~现在, 中国科学院大学,电子电气与通信工程学院, 教授
2007-07~2012-12,德国Martin-Luther University Halle Wintternberg, Research Associate
2005-07~2007-06,新加坡国立大学ECE系,硅纳米器件实验室, Research Fellow
2003-10~2005-06,清华大学高等研究中心, 博士后
2000-09~2003-07,中国科学院研究生院, 博士
1997-09~2000-07,兰州大学物理系, 硕士
1993-09~1997-07,兰州大学物理系, 学士

教授课程

自旋电子学及自旋电子学器件
数学物理方法(电子与通信类)
多体物理:方法和应用(英文)
量子统计物理
量子统计

出版信息


发表著作
( 1 ) “磁性纳米异质受限结构中的自旋和热电输运量子理论”,《自旋电子学导论》一章, Quantum theory of spin and thermoelectric transport in hybrid magnetic nanostructures, 科学出版社, 2014-08, 第 1 作者

科研活动

   
科研项目
( 1 ) 二维非平庸拓扑材料的自旋热电子学理论研究, 主持, 国家级, 2017-01--2020-12
( 2 ) 新型二维量子功能材料的理论设计、可控制备、高精 度表征和原型器件构筑, 参与, 国家级, 2018-05--2023-04
( 3 ) 量子多体计算新方法发展及其应用, 参与, 国家级, 2019-01--2023-12

指导学生

已指导学生

侯国娇  硕士研究生  085208-电子与通信工程  

吉轩廷  博士研究生  070205-凝聚态物理  

谷文星  硕士研究生  085208-电子与通信工程  

徐青莲  硕士研究生  070205-凝聚态物理  

喻小琴  博士研究生  070205-凝聚态物理  

李广清  硕士研究生  070205-凝聚态物理  

余梦晴  硕士研究生  070205-凝聚态物理  

周达昆  博士研究生  070205-凝聚态物理  

现指导学生

简冠林  博士研究生  070205-凝聚态物理  

徐勇  博士研究生  080903-微电子学与固体电子学  

张志帆  博士研究生  070205-凝聚态物理  

刘源  硕士研究生  070205-凝聚态物理  

李俊岑  硕士研究生  070205-凝聚态物理  

刘泽  博士研究生  070205-凝聚态物理  

李和林  硕士研究生  070205-凝聚态物理  

发表文章

  1. YuanDong Wang, ZhiFan Zhang, Zhen-Gang Zhu*, and Gang Su*, Intrinsic nonlinear Ohmic current, Phys. Rev. B 109, 085419 (2024)

  2. Yuan Liu, Zhen-Gang Zhu*, and Gang Su*, Photogalvanic effect and second-harmonic generation from radio to infrared wavelengths in the WTe2 monolayer,  Phys. Rev. B 109, 085117 (2024)

  3. Kai-He Ding*, and Zhen-Gang Zhu*, Van Hove singularity–induced negative magnetoresistance in Dirac semimetals, Phys. Rev. B 108, 245158 (2023).  

  4. YuanDong Wang, Zhen-Gang Zhu*, and Gang Su*, Field-induced Berry connection and anomalous planar Hall effect in tilted Weyl semimetals, Phys. Rev. Research 5, 043156 (2023). 

  5. Yue Qi, Yi-Ming Liu, Yuan-Dong Wang,Jian-Hua Wei*, and Zhen-Gang Zhu*, Chiral current regulation and detection of Berry phase in triangular triple quantum dots,  Chinese Physics B 32, 087304 (2023). 2023年第8期亮点文章

  6. Guang-Lin Jian, Zhen-Gang Zhu*, and Gang Su*, Large Valley Nernst Effect in Twisted Multilayer Graphene Systems, Chinese Physics B 32, 107202 (2023).  SPECIAL TOPIC — Valleytronics

  7. Ze Liu, Zheng-Chuan Wang*, and Zhen-Gang Zhu*, One-qubit Aharonov-Bhom phase gate constructed by Majorana zero energy states, The European Physical Journal B 96, 90 (2023)

  8. Zhi-Fan Zhang, Zhen-Gang Zhu*, and Gang Su*, Symmetry Dictionary on Charge and Spin Nonlinear Responses for All Magnetic Point Groups with Nontrivial Topological Nature, National Science Review, 10,  nwad104 (2023)(IF23.178,一区期刊 

  9. Meng-Qing Yu, Zhen-Gang Zhu*, and Gang Su*, Josephson junction scheme for observing the non-Abelian statistical properties of Majorana fermions, Phys. Rev. B 107, 094518 (2023) 

  10. GuanLin Jian*, Yuan Yang, Ze Liu, Zhen-Gang Zhu*, and Zhengchuan Wang*, Towards simulating time evolution of specific quantum many-body system by lower counts of quantum gates, EPL, 141, 10003 (2023). 

  11. Peng Fan, Ning-Hua Tong*, and Zhen-Gang Zhu*, Spatial spin-spin correlations of the single-impurity Anderson model with a ferromagnetic bathPhys. Rev. B 106, 155130 (2022) 

  12. YuanDong Wang, Zhen-Gang Zhu*, and Gang Su*, Quantum theory of nonlinear thermal response, Phys. Rev. B 106, 035148 (2022),  

  13. Da-Kun Zhou, Zhi-Fan Zhang, Xiao-Qin Yu*,  Zhen-Gang Zhu*, and Gang Su*, Fundamental distinction between intrinsic and extrinsic nonlinear thermal Hall effects, Phys. Rev. B 105, L201103 (2022).通讯作者  

  14. Guang-Qing Li, Zhen-Gang Zhu*, and Gang Su*, Spin Seebeck effect driven by thermal flux in two-dimensional ferromagnets, J. Appl. Phys. 130, 223902 (2021). 通讯作者

  15. Peng Fan, and Z. -G. Zhu*, Magnetic order transition in monolayer MoS2 induced by strong intervalley correlation, Phys. Rev. B 104, 195417 (2021).通讯作者 

  16. Kai-He Ding*Zhen-Gang Zhu*, Yong-Le Hu, and Gang Su*, Weak localization and crossover from Lifshitz transition in two dimensions, Phys. Rev. B 104, 155135 (2021). 通讯作者 

  17. Zhi-Fan Zhang, Zhen-Gang Zhu*, and Gang Su*, Theory of nonlinear response for charge and spin currents, Phys. Rev. B 104, 115140 (2021). 通讯作者  

  18. Xing-Yu Ma, Hou-Yi Lyu, Kuan-Rong Hao, Zhen-Gang Zhu, Qing-Bo Yan*, and Gang Su*, High-efficient ab initio Bayesian active learning method and applications in prediction of two-dimensional functional materials, Nanoscale 13, 14694 (2021).

  19. Kuan-Rong Hao, Xing-Yu Ma, Hou-Yi Lyu, Zhen-Gang Zhu, Qing-Bo Yan*, and Gang Su*, The atlas of ferroicity in two-dimensional MGeX3 family: Room-temperature ferromagnetic half metals and unexpected ferroelectricity and ferroelasticity Nano Research 14, 4732 (2021),一区期刊

  20. Wenjie Hou, Jian Liu, Xi Zuo, Jian Xu, Xueying Zhang, Desheng Liu, Mingwen Zhao, Zhen-Gang Zhu*, Hong-Gang Luo*, & Weisheng Zhao*, Prediction of crossing nodal-lines and large intrinsic spin Hall conductivity in topological Dirac semimetal Ta3As familynpj Computational Materials 7, 37 (2021). 通讯作者,一区期刊

  21. Xiao-Qin Yu*, Zhen-Gang Zhu*, and Gang Su*, Hexagonal warping induced nonlinear planar Nernst effect in nonmagnetic topological insulators, Phys. Rev. B 103, 035410 (2021)通讯作者 

  22. Wen-jie Hou, Yuan-dong Wang, Wei-sheng Zhao, Zhen-Gang Zhu, Jian-hua Wei, Hong-Gang Luo, Yi-Jing Yan, Many-body tunneling and nonequilibrium dynamics in double quantum dots with capacitive coupling,  Journal of Physics: Condensed Matter, 33, 075301 (2021).  通讯作者

  23. Roshan Ali, Zhen-Gang Zhu*, Qing-Bo Yan, Qing-Rong Zheng, Gang Su*, Amel Laref, Chaudry Sajed Saraj, and Chunlei Guo*, Compositional Engineering Study of Lead-free Hybrid Perovskites for Solar Cells Applications, ACS Applied Materials & Interfaces, 12 (44), 49636 (2020). (IF8.019), 通讯作者,一区期刊.

  24. Y. D. Wang, Z. G. Zhu, J. H. Wei, and Y. J. Yan, Bias-induced chiral current and geometrical blockade in triangular triple quantum dot, EPL 130, 17003 (2020).

  25. Da-Kun Zhou, Qing-Lian Xu, Xiao-Qin Yu, Zhen-Gang Zhu*, and Gang Su*, Identification of spin effects in the anomalous Righi-Leduc effect in ferromagnetic metalsScientific Reports 10, 11732 (2020)通讯作者.

  26. Jiadong Zhou, Junhao Lin, Hunter Sims, Chongyun Jiang,Chunxiao Cong,  John A. Brehm, Zhaowei Zhang, Lin Niu, Yu Chen, Yao Zhou, Yanlong Wang, Fucai Liu, Chao Zhu, Ting Yu, Kazu Suenaga, Rohan Mishra, Sokrates T. Pantelides, Zhen-Gang Zhu*, Weibo Gao*, Zheng Liu*, and Wu Zhou*, Synthesis of Co-doped MoS2 monolayer with enhanced valley splitting, Advanced Materials 32, 1906536 (2020). (IF25.809,一区期刊), 通讯作者

  27. Xiao-Qin Yu*, Zhen-Gang Zhu*, and Gang Su*, Unidirectional Seebeck effect in magnetic topological insulators, Phys. Rev. B 100, 195418 (2019). 通讯作者.

  28. Xuan-Ting Ji, and Zhen-Gang Zhu外尔半金属中的手征涡旋效应中国科学院大学学报 36, 598 (2019).

  29. Xiao-Qin Yu*, Zhen-Gang Zhu*, Jhih-Shih You*, Tony Low*, and Gang Su*, Topological Nonlinear Anomalous Nernst Effect in Strained Transition Metal Dichalcogenides, Phys. Rev. B 99, 201410(R) (2019). 通讯作者.

  30. Xiao-Qin Yu, Qing-Lian Xu, Zhen-Gang Zhu*, and Gang Su*, Transition from T−4 to T−1 behavior of conductivity and violation of Matthiessen’s rule in p-type monolayer MoSfrom acoustic phonon scattering, Phys. Rev. B 99, 075404 (2019). Corresponding Author

  31. Qing-Lian Xu, Zhen-Gang Zhu*, and Gang Su*, Generalized Fourier law and anomalous Righi–Leduc effect in a ferromagnet, Phys. Lett. A 382, 3115 (2018). Corresponding Author

  32. Xuan-Ting Ji, Hai-Zhou Lu*, Zhen-Gang Zhu*, and Gang Su*, Effect of the screened Coulomb disorder on magneto-transport in Weyl semimetals, J. Appl. Phys. 123, 203901 (2018). Corresponding author

  33. Roshan Ali, Guo-Jiao Hou, Zhen-Gang Zhu*, Qing-Bo Yan, Qing-Rong Zheng, and Gang Su, Stable Mixed Group II (Ca, Sr) and XIV (Ge, Sn) Lead-free Perovskite Solar Cells, Journal of Materials Chemistry A, 6,9220 (2018). (IF8.867,一区期刊)Corresponding author

  34. Roshan Ali, Guo-Jiao Hou, Zhen-Gang Zhu*, Qing-Bo Yan, Qing-Rong Zheng, and Gang Su, Predicted Lead-free Perovskites for Solar Cells, Chemistry of Materials 30, 718 (2018),(IF9.466,一区期刊)Corresponding author

  35. Xiao-Qin Yu, Zhen-Gang Zhu*, Gang Su*, and A. -P. Jauho*, Spin-Caloritronic Batteries, Phys. Rev. Applied 8, 054038 (2017).IF4.808,一区期刊)Corresponding author

  36. Guo-Jiao Hou, Dong-Lin Wang, Roshan Ali, Yu-Rong Zhou,Zhen-Gang Zhu*, Gang Su*, CH3NH3PbI3/GeSe bilayer heterojunction solar cell with high performance, Solar Energy 159, 142 (2018). IF4.018,二区期刊)Corresponding author

  37. Xuan-Ting Ji, Hai-Zhou Lu*, Zhen-Gang Zhu*, and Gang Su*, Competition between the inter-valley scattering and the intra-valley scattering on magnetoconductivity induced by screened Coulomb disorder in Weyl semimetals,  AIP Advances 7, 105003 (2017)Corresponding author

  38. Yusheng Chen, Pan Ye, Xiangli Jia, Wenxing Gu, Xiaozhou Xu, Xiaoxi Wu, Jianfei Wu, Feng Liu, Zhen-Gang Zhu*, and Hui Huang*, Tuning Voc for High Performing Organic Ternary Solar Cells with Non-fullerene Acceptor Alloys, Journal of Materials Chemistry A, 5, 19697 (2017). IF8.867,一区期刊)通讯作者

  39. Wen-Jie Hou, Yuan-Dong Wang, Jian-Hua Wei*, Zhen-Gang Zhu*, and Yi-Jing Yan*, Many-body Tunneling and Nonequilibrium Dynamics of Doublons in Strongly Correlated Quantum Dots, Sci. Rep. 7, 2486 (2017).IF4.259,二区期刊)通讯作者

  40. YongXi Cheng, YuanDong Wang, JianHua Wei, ZhenGang Zhu, and YiJing Yan, Long-range exchange interaction in triple quantum dots in the Kondo regime, Phys. Rev. B 95, 155417 (2017).

  41. Yusheng Chen, Pan Ye, Zhen-Gang Zhu, Xinlong Wang, Lei Yang, Xiaozhou Xu,Xiaoxi Wu, Tao Dong, Hao Zhang, Jianhui Hou, Feng Liu, and Hui Huang, Achieving High-Performance Ternary Organic Solar Cells through Tuning Acceptor Alloy, Adv. Mater., 29, 1603154 (2017). (IF25.809,一区期刊)

  42. Wenxing Gu, Lei Yang, Yusheng Chen, Xinlong Wang, Hao Zhang, Jianhui Hou, Zhengang Zhu*, Hui Huang*, Ternary blend polymer solar cells with two non-fullerene acceptors as acceptor alloy, Dyes and Pigments, 141, 388 (2017).IF3.473,材料一区期刊)通讯作者

  43. A. S. Moskalenko, Z. -G. Zhu, and J. Berakdar, Charge and spin dynamics driven by ultrashort extreme broadband pulses: A theory perspective, Physics Reports 672, 1-82 (2017).(综述文章,开源,IF17.425,一区期刊)

  44. Yan-qing Zhang, Niu-yi Sun, Wen-ru Che, Rong Shan, Zhen-Gang Zhu*, A novel method to evaluate spin diffusion length of Pt, Physica B 488, 672016)通讯作者

  45. Y. Q. Zhang, N. Y. Sun, W. R. Che, R. Shan, and Z. G. Zhu, Origin of enhanced anomalous Hall effect in ultrathin Pt/permalloy bilayers, AIP Adv. 6, 025214 (2016);

  46. N. -Y. Sun, Y. -Q. Zhang, W. -R. Che, R. Shan*, and Z. G. Zhu*, Evolution of anomalous Hall behavior in thin Pt/ Co /Pt trilayers, J. Mag. Mag, Materials 405, 311 (2016)通讯作者

  47. Dong-Lin Wang, Hui-Juan Cui, Guo-Jiao Hou, Zhen-Gang Zhu, Qing-Bo Yan, and Gang Su, Highly efficient light management for perovskite solar cells, Sci. Rep. 6, 18922 (2016);

  48. Yan-qing Zhang, Hua-rui Fu, Niu-yi Sun, Wen-ru Che, Ding Ding, Juan Qin, Cai-yin You, Rong Shan, Zhen-gang Zhu,Spin Hall magnetoresistance in an ultrathin Co2FeAl system,J. Mag. Mag, Materials 411, 103 (2016)

  49. Hui-Juan Cui, Xian-Lei Sheng, Qing-Bo Yan, Zhen-Gang Zhu*, Qing-Rong Zheng*, Gang Su*, Diamond polytypes under high pressure: A first-principles study, Computational Materials Science 98, 129 (2015)通讯作者

  50. Xiao-Qin Yu, Zhen-Gang Zhu*, Gang Su*, and A.-P. Jauho*, Thermally Driven Pure Spin and Valley Currents via the Anomalous Nernst Effect in Monolayer Group-VI Dichalcogenides, Phys. Rev. Lett. 115, 246601 (2015),通讯作者

  51. X. Zhang, Z. -C. Wang, Q. -R. Zheng, Z. -G. Zhu, G. Su, Current-induced magnetic switching of a single molecule magnet on a spin valve, Physics Letters A 379: 848 (2015);

  52. Xin Yan, Zhen-Gang Zhu*, and Gang Su*, Combined study of Schwinger-boson mean-field theory and linearized tensor renormalization group on Heisenberg ferromagnetic mixed spin (S, σ) chains, AIP Advances 5, 077183 (2015)通讯作者

  53. Y. Q. Zhang, N. Y. Sun, W. R. Che, X. L. Li, J. W. Zhang, R. Shan*, Z. G. Zhu*, and G. Su*, Manipulating effective spin orbit coupling based on proximity effect in magnetic bilayers, Appl. Phys. Lett. 107, 082404 (2015). 通讯作者

  54. Wenru Che, Xiaofei Xiao, Niuyi Sun, Yanqing Zhang, Rong Shan*, and Zhen-Gang Zhu*, Critical Anomalous Hall Behavior in Pt/Co/Pt Trilayers Growth on Papers with Perpendicular Magnetic Anisotropy, Appl. Phys. Lett. 104, 262404 (2014)通讯作者

  55. Kun-Hua Zhang, Zhen-Gang Zhu*, Zheng-Chuan Wang, Qing-Rong Zheng*, Gang Su*, Effective manipulation of Andreev bound states, zero mode Majorana fermion and Josephson current in a superconductor –normal –superconductor junction on the surface of a topological insulator, Phys. Lett. A 378 3131 (2014)通讯作者

  56. Sheng-Ying Yue, Qing-Bo Yan, Zhen-Gang Zhu*, Hui-Juan Cui, Qing-Rong Zheng*, Gang Su*,  First-principles study on electronic and magnetic properties of twisted graphene nanoribbon and Moebius strips, Carbon 71, 150, (2014)通讯作者

  57. K. -H. Ding*, Z. -G. Zhu*, and G. Su*, Spin-dependent transport and current-induced spin transfer torque in a strained graphene spin valve, Phys. Rev. B, 89, 195443 (2014)通讯作者

  58. Zhen-Gang Zhu, and Gang Su, Spin manipulations through electrical and thermoelectrical transport in magnetic tunnel junctions, Sci. China-Phys. Mech. Astron. 56, 166, (2013);

  59. Zhen-Gang Zhu, and Jamal Berakdar, Anomalous Nernst effect in strained graphene coupled to a substrate inducing a time-reversal symmetry breaking, New Journal of Physics 15, 073028, (2013);

  60. Kai-He Ding, Zhen-Gang Zhu, and Jamal Berakdar, Laser-assisted spin-polarized transport in graphene tunnel junctions, J. Phys.: Condens. Matter 24, 266003, (2012);

  61. Zhen-Gang Zhu, and Jamal Berakdar, Berry-curvature-mediated valley-Hall and charge-Hall effects in graphene, Phys. Rev. B 84, 195460 (2011);

  62. Zhen-Gang Zhu, and Jamal Berakdar, Magnetic adatoms on graphene in the Kondo regime: an Anderson model; Phys. Rev. B 84, 165105 (2011);

  63. Kai-He Ding, Zhen-Gang Zhu, and Jamal Berakdar;Time-dependent magnetotransport in a driven graphene spin valve; Phys. Rev. B 84, 115433 (2011);

  64. Zhen-Gang Zhu, and Jamal Berakdar;Topological view on magnetic adatoms in graphene; Phys. Rev. B 83, 195404 (2011);

  65. Zhen-Gang Zhu, C. -L. Jia, and Jamal Berakdar; Proposal for fast optical control of spin dynamics in a quantum wire; Phys. Rev. B 82, 235304 (2010);

  66. K. H. Ding, Zhen-Gang Zhu, Z.-H. Zhang, and J. Berakdar; Magnetotransport in an impurity-doped few-layer graphene spin valve; Phys. Rev. B 82, 155143 (2010);

  67. Zhen-Gang Zhu, Kai-he Ding, and Jamal Berakdar; Single or multi-flavor Kondo effect in graphene; Europhys. Letters, 90, 67001 (2010);

  68. Zhen-Gang Zhu, and Jamal Berakdar; Photoinduced nonequilibrium spin, charge polarizations and spin-dependent current in quantum rings, Physica Status Solidi B 247, 641 (2010);

  69. K. -H. Ding, Zhen-Gang Zhu, and Jamal Berakdar; Charge and spin Hall effect in graphene with magnetic impurities, Europhys. Letters, 88, 58001 (2009);

  70. K. -H. Ding, Zhen-Gang Zhu, and Jamal Berakdar; Localized magnetic states in biased bilayer and trilayer graphene, J. Phys.: Condens. Matter 21, 182002 (2009);

  71. Zhen-Gang Zhu, and J. Berakdar; Electromagnetic pulse-driven spin-dependent currents in semiconductor quantum rings; J. Phys.: Condens. Matter 21, 145801 (2009);

  72. K. -H. Ding, Zhen-Gang Zhu, and Jamal Berakdar; Magnetotransport through graphene spin valves; Phys. Rev. B 79, 045405 (2009);

  73. Zhen-Gang Zhu, and Jamal Berakdar; Photoinduced nonequilibrium spin and charge polarization in quantum rings, Phys. Rev. B 77, 235438 (2008);

  74. Zhen-Gang Zhu, Gengchiau Liang, Ming-Fu Li, and Ganesh Samudra; A pseudopotential method for investigating the surface roughness effect in ultrathin body transistors, J. Phys.: Condens. Matter 20, 235229 (2008);

  75. K.-H. Ding, Guanghui Zhou, Zhen-Gang Zhu, and Jamal Berakdar; Magnetotransport of Dirac fermions in graphene in the presence of spin-orbit interactions, J. Phys.: Condens. Matter 20, 345228 (2008);

  76. Zhen-Gang Zhu, Tony Low, Ming-Fu Li, Wei Jun Fan, P. Bai, D. L. Kwong, and G. Samudra; Pseudo-potential band structure calculation of InSb ultra-thin films and its application to assess the n-metal-oxide-semiconductor transistor performance, Semicond. Sci. Technol. 23, 025009 (2008);

  77. Zhen-Gang Zhu; Selective spin injection controlled by electrical way in ferromagnet/quantum dot/semiconductor system; Phys. Lett. A 372, 695 (2008);

  78. Kai-He Ding, Zhen-Gang Zhu, and Xing-Hai Liu; Spin-dependent transport through a finite interacting quantum dot with intradot spin-flip scattering, Mod. Phys. Lett. B, 22, 323 (2008);

  79. Zhen-Gang Zhu, Tony Low, M. F. Li, W. J. Fan, P. Bai, D. L. Kwong, and G. Samudra; Modeling Study of InSb Thin Film For Advanced III-V MOSFET Applications, IEDM 2006;

  80. Chao-Xing Liu, Zhen-Gang Zhu, and Bang-Fen Zhu; Rashba Interaction as an External Yang-Mills Field Applied to One-Dimension System, Physica E, 32, 391 (2006);

  81. Zhen-Gang Zhu, and Gang Su; Magnitude of Magnetic Field Dependence of a Possible Selective Spin Filter in ZnSe/Zn1-xMnxSe Multilayer Heterostructures, Phys. Rev. B 70, 193310 (2004);

  82. Zhen-Gang Zhu, Gang Su, Qing-Rong Zheng, and Biao Jin; Time-Dependent Spin-Polarized Transport Through a Resonant Tunneling Structure with Multiterminals, Phys. Rev. B 70, 174403 (2004);

  83. Hai-Feng Mu, Zhen-Gang Zhu, Qing-Rong Zheng, Biao Jin, Zheng-Chuan Wang, and Gang Su; Theoretical consideration of spin-polarized resonant tunneling in magnetic tunnel junctions, Phys. Lett. A 323, 298 (2004);

  84. Zhen-Gang Zhu, Gang Su, Qing-Rong Zheng, and Biao Jin; Time-dependent spintronics transport and current-induced spin transfer torque in magnetic tunnel junctions, Phys. Rev. B 68, 224413 (2003);

  85. Zhen-Gang Zhu, Gang Su, Biao Jin, and Qing-Rong Zheng; Spin-Flip Scattering Effect on the Current-Induced Spin Torque in Ferromagnet-Insulator-Ferromagnet Tunnel Junctions, Phys. Lett. A 306, 249 (2003);

  86. Zhen-Gang Zhu, Gang Su, Qing-Rong Zheng, and Biao Jin; Effect of spin-flip scattering on electrical transport in magnetic tunnel junctions, Phys. Lett. A 300, 658 (2002);

  87. Zhen-Gang Zhu, Gang Su, Biao Jin, and Qing-Rong Zheng, Effect of impurities and effective masses on spin-dependent electrical transport in ferromagnet-normal metal-ferromagnet hybrid junctions, Inter. J. Mod. Phys. B 16, 2857 (2002);

  88. Lei Yang, Zhengang Zhu, and Yinghai Wang; Exact solutions of nonlinear equations; Phys. Lett. A 260, 55 (1999).