卢卯旺教授
一、基本情况
卢卯旺,男,博士,二级教授,博士生导师。1965年7月生,汉族,湖南江永人,中共党员。省级学科带头人,省自然科学基金委专家委员,省级青年骨干教师。
联系地址:maowanglu@glut.edu.cn;(541004)广西桂林市建干路12号。
二、学习和工作经历
2010.01~至今 桂林理工大学,理学院
2006.04~2009.12 南京航空航天大学,理学院
2003.07~2006.03 湘潭大学,材料与光电物理学院
2000.09~2003.06 中国科学院固体物理研究所,凝聚态物理研究生/博士
1997.07~2000.08湖南科技学院,理学院
1994.09~1997.06 湖南师范大学,物理研究所,天体物理研究生/硕士
1987.07~1994.08 湖南科技学院,理学院
1983.09~1987.06 湖南师范大学,物理与电子科学学院,物理学本科/学士
三、教学工作
★主讲课程:
(1)本科生的《量子力学》、《计算物理》、《电路》、《数字和模拟电子技术》等;
(2)研究生的《高等量子力学》、《纳米电子学》等.
★1998年,湖南省高校青年骨干教师(2001年通过验收).
四、科学研究
★研究方向:
(1)自旋电子学;
(2)低维结构与量子调控;
(3)半导体物理与器件.
★主要课题:
(1) 层状半导体微结构中电子束古斯-汉兴位移与自旋注入研究(62164005),国家自然科学基金,直接经费38.0万元,2022-2025,主持
(2)半导体磁量子微结构中传输时间与电子自旋极化研究(11864009),国家自然科学基金,直接经费46.0万元,2019-2022,主持
(3)磁受限半导体异质结构中δ-掺杂与量子调控研究(61464004),国家自然科学基金,46.0万元,2015-2018,主持
(4)磁调制半导体纳米结构中Goos-Hänchen效应与电子自旋极化研究(11164006),国家自然科学基金,58.0万元,2012-2015,主持
(5)自旋-轨道耦合调制下磁纳米结构中电子自旋过滤及其调控研究(2016GXNSFAA380095),广西自然科学基金,5.0万元,2016-2018,主持
(6)Delta-掺杂磁调制半导体纳米结构及其体系中电子自旋极化效应(2012GXNSFAA053005),广西自然科学基金,5.0万元,2012-2015,主持
★代表论文:
1. Mao-Wang Lu∗, Sai-Yan Chen, Xue-Li Cao, Xin-Hong Huang, Temporal electron-spin splitter based on a semiconductor microstructure constructed on surface of InAs/AlxIn1-xAs heterostructure by patterning a ferromagnetic stripe and a Schottky-metal stripe, IEEE Transactions on Electron Devices, 68 (2021) 860.
2. Mao-Wang Lu∗, Sai-Yan Chen, Xue-Li Cao, Xin-Hong Huang, Separating spins by dwell time of electrons across a magnetic microstructure, Results in Physics, 19 (2020) 103375.
3. Mao-Wang Lu∗, Sai-Yan Chen, Gui-Lian Zhang, Xin-Hong Huang, Spin filter based on magnetically confined and spin-orbit coupled GaAs/AlxGa1-xAs heterostructure, IEEE Transactions on Electron Devices, 85 (2018) 3045.
4. Mao-Wang Lu∗, Sai-Yan Chen, Gui-Lian Zhang, Xin-Hong Huang, Calculations of spin-polarized Goos-Hänchen displacement in magnetically confined GaAs/AlxGa1-xAs nanostructure modulated by spin-orbit couplings, Journal of Physics: Condensed Matter, 30 (2018) 145302.【2021年获中国顶级被引论文奖(CHINA TOP CITED PAPER AWARD)】
5. Mao-Wang Lu∗, Sai-Yan Chen, Xin-Hong Huang, Gui-Lian Zhang, Spin splitter based on magnetically confined semiconductor microstructure modulated by spin-orbit coupling, IEEE Journal of The Electron Devices Society, 6 (2018) 227.
6. Mao-Wang Lu∗, Sai-Yan Chen, Gui-Lian Zhang, Controllable momentum filter based on a magnetically confined semiconductor heterostructure with a δ-doping, IEEE Transactions on Electron Devices, 64 (2017) 1825.
7. Mao-Wang Lu∗, Xue-Li Cao, Xin-Hong Huang, Ya-Qing Jiang, Shi-Peng Yang, Controllable giant magnetoresistance effect by the δ-doping in a magnetically confined semiconductor heterostructure, Applied Surface Science, 360 (2016) 989.
8. Mao-Wang Lu, Xue-Li Cao, Xin-Hong Huang, Ya-Qing Jiang, Shuai Li, Structurally controllable spin spatial splitter in a hybrid ferromagnet and semiconductor nanostructure, Journal of Applied Physics, 115 (2014) 174305.
9. Mao-Wang Lu∗, Zhi-Yong Wang, Yu-Li Liang, Li-Qiong Li, Structurally manipulating electron-spin polarization via δ-doping in a magnetic nanostructure, Applied Physics Letters,102 (2013) 022410.
10. Mao-Wang Lu∗, Zhi-Yong Wang, Yu-Li Liang, Li-Qiong Li, Controllable electron-spin polarization by δ-doping in a hybrid ferromagnet and semiconductor nanostructure, EPL, 101 (2013) 47001.
11. Mao-Wang Lu∗, Li-De Zhang, Xiao-Hong Yan, Electronic transport in both magnetically and electrically modulated nanostructures, Nanotechnology, 14 (2003) 609.
12. Mao-Wang Lu∗, Li-De Zhang, Xiao-Hong Yan, Spin polarization of electrons tunneling through magnetic-barrier nanostructures, Physical Review B, 66 (2002) 224412.
★学术著作:
卢卯旺,《磁受限半导体异质结构中量子效应及其调控与电子器件》,中国原子能出版社,2020年
★科研奖励:
(1)2002年,中国科学院优秀博士;
(2)2005年,湖南省高校学科带头人(2008年通过验收);
(3)2017年,广西自然科学三等奖(第一完成人);
(4)2020年,桂林理工大学(A类)屏风学者.
五、指导研究生
1. Ying-Jie Qin (覃英杰), Mao-Wang Lu*, Shi-Shi Xie, Meng-Hao Sun, Electron-momentum filtering in antiparallel asymmetric double 6-magnetic-barrier nanostructure, Chinese Journal of Physics, 73 (2021) 224.
2. Ying-Jie Qin (覃英杰), Mao-Wang Lu*, Xin-Hong Huang, Shi-Shi Xie, Meng-Hao Sun, Effect of δ-potential on electron-momentum filter based on antiparallel asymmetric double delta-magnetic-barrier semiconductor microstructure, Physics Letters A, 412 (2021) 125571.
3. Qing-Meng Guo (郭庆孟), Mao-Wang Lu*, Xin-Hong Huang, Shuai-Quan Yang, Ying-Jie Qin, Spin polarization in time domain for electrons in a magnetic microstructure, Vacuum, 186 (2021) 110059.
4. Qing-Meng Guo (郭庆孟), Mao-Wang Lu*, Shuai-Quan Yang, Ying-Jie Qin, Shi-Shi Xie, Spin polarization by dwell time of electron in a hybrid magnetic-electric-barrier semiconductor microstructure, Brazilian Journal of Physics, 52 (2022) 74.
5. Qing-Meng Guo (郭庆孟), Mao-Wang Lu*, Shuai-Quan Yang, Ying-Jie Qin, Shi-Shi Xie, Control of spin-dependent dwell time by δ-doping for electron in embedded magnetic-electric-barrier nanostructure, Journal of Nanoelectronics and Optoelectronics, 16 (2021) 1554.
6. Shuai-Quan Yang (杨帅权), Mao-Wang Lu∗, Qing-Meng Guo, Ying-Jie Qin, Shi-Shi Xie, Spin-orbit-coupling induced electron-spin polarization in magnetically and electrically confined semiconductor microstructure, Results in Physics, 30 (2021) 104898.
7. Shuai-Quan Yang (杨帅权), Mao-Wang Lu∗, Qing-Meng Guo, Ying-Jie Qin, Shi-Shi Xie, Manipulating electron-spin polarization via a δ-potential in an embedded magnetic-electric-barrier microstructure, Journal of Nanoelectronics and Optoelectronics, 16 (2021) 1417.
8. Zeng-Lin Cao (曹增林-华中科技大学物理学2021级博士), Mao-Wang Lu*, Xin-Hong Huang, Qing-Meng Guo, Shuai-Quan Yang, Manipulating Dresselhaus-spin-orbit coupling induced electron-spin polarization via δ-doping in 3-layered semiconductor heterostructure, Physica E: Low-dimensional Systems and Nanostructures, 129 (2021) 114646.
9. Zeng-Lin Cao (曹增林), Mao-Wang Lu*, Xin-Hong Huang, Qing-Meng Guo, Shuai-Quan Yang, Control of electron-spin polarization via δ-potential in 3-layered semiconductor heterostructure modulated by Rashba spin-orbit coupling, Journal of Magnetism and Magnetic Materials, 527 (2021) 167785.
10. Zeng-Lin Cao (曹增林), Mao-Wang Lu*, Xin-Hong Huang, Qing-Meng Guo, Shuai-Quan Yang, Dresselhaus spin-orbit coupling induced electron-spin polarization in a 3-layered semiconductor heterostructure, Journal of Magnetism and Magnetic Materials, 513 (2020) 167217.
11. Zeng-Lin Cao (曹增林), Mao-Wang Lu*, Xin-Hong Huang, Qing-Meng Guo, Shuai-Quan Yang, Rashba spin-orbit coupling induced electron-spin polarization in a realistic 3-layered semiconductor heterostructure, Superlattices and Microstructures, 143 (2020) 106545.
12. Meng-Rou Huang (黄梦柔-华南师范大学物理学2020级博士), Mao-Wang Lu*, Xin-Hong Huang, Dong-Hui Liang, Zeng-Lin Cao, Bias-controllable electron-momentum filter based on a magnetically and electrically confined semiconductor heterostructure, Vacuum, 180 (2020) 109580.
13. Meng-Rou Huang (黄梦柔), Mao-Wang Lu*, Xin-Hong Huang, Dong-Hui Liang, Zeng-Lin Cao, Wave vector filtering effect for electrons in magnetically and electrically confined semiconductor heterostructure, Modern Physics Letters B, 34 (2020) 2050080.
14. Meng-Rou Huang (黄梦柔), Mao-Wang Lu*, Xin-Hong Huang, Dong-Hui Liang, Zeng-Lin Cao, Tunable wave-vector filtering effect for electrons in a magnetically and electrically confined semiconductor heterostructure with a δ-doping, Journal of Superconductivity and Novel Magnetism, 33 (2020) 307.
15. Dong-Hui Liang (梁冬辉), Mao-Wang Lu*, Xin-Hong Huang, Meng-Rou Huang, Zeng-Lin Cao, Bias-dependent magnetoresistance device based on a magnetically confined GaAs/AlxGa1-xAs heterostructure, Journal of Nanoelectronics and Optoelectronics, 15 (2020) 325.
16. Dong-Hui Liang (梁冬辉), Mao-Wang Lu*, Xin-Hong Huang, Meng-Rou Huang, Zeng-Lin Cao, Controllable magnetoresistance effect in a δ-doped and magnetically-confined semiconductor heterostructure, Vacuum, 169 (2019) 108891.
17.Yong-Long Zhou (周永龙-华南师范大学物理学2019级博士), Mao-Wang Lu*, Xin-Hong Huang, Meng-Rou Huang, Dong-Hui Liang, Structurally-controllable electron-spin filter based on a hybrid magnetic-electric-barrier nanostructure modulated by a δ-doping, Journal of Nanoelectronics and Optoelectronics, 14 (2019) 189.
18.Yong-Long Zhou (周永龙), Mao-Wang Lu*, Xue-Li Cao, Xin-Hong Huang, Meng-Rou Huang, Dong-Hui Liang, Manipulation of spin filtering effect in a hybrid magnetic-electric-barrier nanostructure with a δ-doping, Applied Physics A, 124 (2018) 705.
19. Qiang Tang (汤强-武汉大学物理学2018级博士), Mao-Wang Lu*, Xin-Hong Huang, Yong-Long Zhou, Lateral shifts for spin electrons in a hybrid magnetic-electric-barrier nanostructure modulated by spin-orbit couplings, Journal of Superconductivity and Novel Magnetism, 31 (2018) 1383.
20. Qiang Tang (汤强), Mao-Wang Lu*, Xin-Hong Huang, Yong-Long Zhou, Controllable spatial spin splitter in an antiparallel double δ-magnetic-barrier semiconductor nanostructure with spin-orbit couplings, Journal of Nanoelectronics and Optoelectronics, 13 (2018) 132.
21. Shi-Peng Yang (杨士鹏), Mao-Wang Lu*, Xin-Hong Huang, Qiang Tang, Yong-Long Zhou, Effect of Rashba and Dresselhaus spin-orbit couplings on electron spin polarization in a hybrid magnetic-electric-barrier nanostructure, Journal of Electronic Materials, 46 (2017) 1937.
22. Shi-Peng Yang (杨士鹏), Mao-Wang Lu*, Xin-Hong Huang, Qiang Tang, Yong-Long Zhou, Effect of Rashba and Dresselhaus spin-orbit couplings on electron-spin polarization in a magnetic-barrier nanostructure, Journal of Nanoelectronics and Optoelectronics, 12 (2017) 631.
23. Ya-Qing Jiang (蒋亚清), Mao-Wang Lu*, Xin-Hong Huang, Shi-Peng Yang, Qiang Tang, Manipulable GMR effect in δ-doped magnetically confined semiconductor heterostructure, Journal of Electronic Materials, 45 (2016) 2796.
24. Ya-Qing Jiang (蒋亚清), Mao-Wang Lu*, Xin-Hong Huang, Shi-Peng Yang, Qiang Tang, Controllable magnetoresistance device based on a δ-doped magnetic nanostructure, Journal of Nanoelectronics and Optoelectronics, 11 (2016) 523.
25. Shuai Li (李帅), Mao-Wang Lu*, Ya-Qing Jiang, Sai-Yan Chen, Spin-polarized transport in a δ-doped magnetic-barrier nanostructure, Physics Letters A. 378 (2014) 3189.
26. Shuai Li (李帅), Mao-Wang Lu*, Ya-Qing, Jiang, Sai-Yan Chen, Spin filtering in a δ-doped magnetic-electric-barrier nanostructure, AIP Advances, 4 (2014) 097112.