俞大鹏
工作单位与职务
中国科学院 院士(技术学部)
南方科技大学 物理系讲席教授
量子科学与工程研究院 院长
北京大学 北京“量子物质科学”协同创新中心研究员
研究领域
低维量子材料,量子调控,微纳加工
学习经历
博士:1989年-1993年, 法国第十一巴黎大学, 材料物理专业
硕士:1982年-1985年,中国科学院上海硅酸盐研究所,无机非金属材料科学与工程专业
学士:1978年-1982.7, 华东化工学院(现华东理工大学),无机非金属材料科学与工程专业
工作经历
2016年5月-至今:任职于南方科技大学, 担任量子科学与工程研究院院长,物理系讲座教授
1999年-2016年5月:任职于北京大学, 担任物理学院教授
1995年-1999年:任职于北京大学, 担任物理学院副教授
1993年-1995年:任职于中科院电子显微镜实验室,担任博士后
个人简介
俞大鹏,男,1959年出生于宁夏中卫。现任南方科技大学物理系讲席教授、量子科学与工程研究院院长。1993年毕业于法国南巴黎大学,固体物理博士。1993年至1995年在中科院电子显微镜实验室担任博士后。1995年在北京大学物理学院任职,担任副教授,1999年晋升为正教授。
俞大鹏教授2015年当选为中国科学院技术学部院士,2016年获深圳高层次专业人才称号,2017年被评为广东省“珠江人才计划”引进创新创业团队(量子科学与工程团队)带头人,2017、2018、2019连续三年获得“深圳市产业发展与创新人才奖”。
俞大鹏教授长期从事低维纳米结构物理研究,是最早发现自下而上制备一维半导体纳米线和二维狄拉克量子材料表征方法的国际先驱之一,为低维量子材料的研究做出了重要贡献。近十几年来,其研究重心集中在对单根纳米线、单体量子结构的光电力热磁等物理性质的精确量子调控上,取得了一系列成果。其领导的研究团队对纳米线、石墨烯等单个微观结构的光电力热磁等物理性质的操控能力达到了新的高度。
2016年6月,俞大鹏教授全职到南方科技大学工作,致力于量子科技研究平台与队伍的建设,经过近3年的努力,已完成了深圳市十大基础研究机构之一的深圳量子科学与工程研究院的筹建工作。该研究院在量子材料、量子精密测量和量子计算三个方向布局开展研究,投入研究经费近2亿元,全职科研人员超过100人,已建立了600平方米的国际一流的量子器件与量子芯片加工中心。俞大鹏教授带领以青年科学家为主的研究团队在深圳量子科学与工程研究院的研究平台上开展量子计算研究工作,已在南方科技大学培养博士后4人,在站博士后5人,在读博士研究生7人。
作为项目负责人,俞大鹏教授承担着科技部“量子调控”重点专项“自旋波物理、材料与器件”重大项目、国家自然科学基金联合集成项目、广东省重点领域研发计划“量子科学与工程”重大科技专项等。
俞大鹏教授培养了一百多位优秀学生,部分毕业生在包括北京大学、清华大学、中国科技大学、南京大学、中国科学院、美国哥伦比亚大学、MIT、UCSD等名校任教。
基于取得的研究成果,俞大鹏教授共计发表500余篇论文,其中大部分发表在APS(33篇PRL/PRB)和AIP期刊(96篇)以及其他期刊如NPG(12篇Nature和Nature子刊),被同行参考他引超过29000次,h-因子91。2014至2018 年连续进入在Elsevier 发布的在全球具有重要学术影响力的中国高被引学者,位列“物理与天文”学科榜单的前列。
俞大鹏教授近期相关工作论文目录:
1.Generation of Single-crystal Copper Sheet with Arbitrary Orientation via 1 Seeded Abnormal Grain Growth, Nature, in press, 2020.
2.Electric control of Fermi arc spin transport in individual topological semimetal nanowires: Physical Review Letters 124, 116802, 2020.
3.Chiral Spin-Wave Velocities Induced by All-Garnet Interfacial Dzyaloshinskii-Moriya Interaction in Ultrathin Yttrium Iron Garnet Films: Physical Review Letters 124,027203, 2020.
4.Simulation of a topological phase transition in a Kitaev chain with long-range coupling using a superconducting circuit: Physical Review B 101,035109, 2020.
5.Quantum oscillations of thermopower in WTe2 thin films: Physical Review B 100,235405, 2019.
6.Experimental Realization of Nonadiabatic Shortcut to Non-Abelian Geometric Gates: Physical Review Letters 122(8), 080501, 2019.
7.Subunit cell-level measurement of polarization in an individual polar vortex: Science Advances 5,4355, 2019.
8.Epitaxial growth of a 100-square-centimetre single-crystal hexagonal boron nitride monolayer on copper, Wang, Li; Xu, Xiaozhi; Zhang, Leining; Qiao, Ruixi; Wu Muhong;; et al., Nature, 570:91–95,2019.
9.Current-controlled propagation of spin waves in antiparallel, coupled domains; Liu, Chuanpu; Wu, Shizhe; Zhang, Jianyu; Chen, Jilei; et al., Nature nanotechnology, 14:691–697, 2019.
10.Universal Imaging of Full Strain Tensor in 2D Crystals with Third-Harmonic Generation, Liang, Jing; Wang, Jinhuan; Zhang, Zhihong; Su, Yingze; et al., ADVANCED MATERIALS, 31(19): 1808160, 2019.
11.Kinetic modulation of graphene growth by fluorine through spatially confined decomposition of metal fluorides, Liu, Can; Xu, Xiaozhi; Qiu, Lu; Wu, Muhong; et al., NATURE CHEMISTRY, 11:730–736 , 2019.
12.Probing Far-Infrared Surface Phonon Polaritons in Semiconductor Nanostructures at Nanoscale, Qi, Ruishi; Wang, Renfei; Li, Yuehui; Sun, Yuanwei; et al., NANO LETTERS, 19(8):5070-5076, 2019.
13.Observation of an Odd-Integer Quantum Hall Effect from Topological Surface States in Cd3As2, Lin, Ben-Chuan; Wang, Shuo; Wiedmann, Steffen; et al., PHYSICAL REVIEW LETTERS, 122(3): 036602, 2019.
14.Dirac Semimetal Heterostructures: 3D Cd3As2 on 2D Graphene,Wu, Yan-Fei; Zhang, Liang; Li, Cai-Zhen et al., ADVANCED MATERIALS 30(34): 1707547, 2018.
15.Ultrafast Broadband Charge Collection from Clean Graphene/CH(3)NH(3)Pbl(3) Interface, Hong, Hao; Zhang, Jincan; Zhang, Jin; Qiao, Ruixi; et al., Journal of the American Chemical Society, 140(44):14952-14957, 2018
16.Differential Enzyme Flexibility Probed Using Solid-State Nanopores, Hu, Rui; Rodrigues, Joao V.; Waduge, Pradeep; Yamazaki, Hirohito; et al., ACS NANO, 12(5): 4494-4502, 2018.
17.Long-distance propagation of short-wavelength spin waves, Liu, Chuanpu; Chen, Jilei; Liu, Tao; Heimbach, Florian; et al., Nature Communications, 9:738, 2018.
18.Greatly Enhanced Anticorrosion of Cu by Commensurate Graphene Coating,Xu, Xiaozhi; Yi, Ding; Wang, Zhichang et al.ADVANCED MATERIALS 30(6 )1702944,2018
19.Experimentally probing topological order and its breakdown through modular matrices, Luo, ZH (Luo, Zhihuang); Li, J (Li, Jun); Li, ZK (Li, Zhaokai); et al., Nature Physics,14:160, 2018.
20.Quantum transport in Dirac and Weyl semimetals: a review, Wang, Shuo; Lin, Ben-Chuan; Wang, An-Qi ;Yu, Da-Peng; et al., ADVANCES IN PHYSICS-X, 2(3): 518-544, 2017.
21.Electronic Coupling between Graphene and Topological Insulator Induced Anomalous Magnetotransport Properties, Zhang, Liang; Lin, Ben-Chuan; Wu, Yan-Fei; et al., ACS Nano,1 1(6): 6277-6285, 2017.
22.Ab initio thermodynamic study on two-dimensional atomic nucleation on ZnO polar surfaces, Zhu, Rui; Zhao, Qing; Xu, Jun; Liu, Banggui; et al., Applied Surface Science, 412: 417-423, 2017.
23.Monitoring Local Strain Vector in Atomic-Layered MoSe2 by Second-Harmonic Generation,Liang, Jing; Zhang, Jin; Li, Zhenzhu; et al., NANO LETTERS 17(12)7539-7543, 2017.
24.Ultrafast epitaxial growth of metre-sized single-crystal graphene on industrial Cu foil, Xu, Xiaozhi; Zhang, Zhihong; Dong, Jichen et al., Science Bulletin 62(15): 1074-1080, 2017.
25.Possible absence of critical thickness and size effect in ultrathin perovskite ferroelectric films, Gao, Peng; Zhang, Zhangyuan; Li, Mingqiang; et al., Nature Communications 8: 15549,2017.
26.Electrical transport in nanothick ZrTe5 sheets: From three to two dimensions, Niu, Jingjing; Wang, Jingyue; He, Zhijie; et al., Physical Review B 95: 035420, 2017.
27.Ultrafast growth of single-crystal graphene assisted by a continuous oxygen supply, Xiaozhi Xu , Zhihong Zhang , Kaihui Liu; et al., Nature Nanotechnology, 11(11): 930-935, 2016.
28.Strain-Gradient Modulated Exciton Emission in Bent ZnO Wires Probed by Cathodoluminescence, Fu, Xue-Wen; Li, Cai-Zhen; Fang, Liang; et al., ACS Nano, 10(12): 11469-11474, 2016.
29.Aharonov-Bohm oscillations in Dirac semimetal Cd3As2 nanowires, Wang, Li-Xian; Li, Cai-Zhen; Yu, Da-Peng et al., Nature Communications 7: 10769,2016 .
30.A polymer scaffold for self-healing perovskite solar cells, Zhao, Yicheng; Wei, Jing; Li, Heng . et al., Nature Communications 7:10228, 2016
31.Giant negative magnetoresistance induced by the chiral anomaly in individual Cd3As2 nanowires, Li, Cai-Zhen; Wang, Li-Xian; Liu, Haiwen et al., Nature Communications 6:10137, 2015
32.Vibrational spectroscopy t electrolyte/electrode interfaces with graphene gratings, Bie, Ya-Qing; Horng, Jason; Shi, Zhiwen et al., Nature Communications 6:7593,2015
33.Layer-by-layer assembly of vertically conducting graphene devices, Chen, Jing-Jing; Meng, Jie; Zhou, Yang-Bo; et al., Nature Communications 4:1921, 2013.
34.(2)Tunable Bandgap in Silicene and Germanene: Nano Letters 12(1), 113-118, 2012.
35.Evidence for Thermal Spin-Transfer Torque, Yu, Haiming; Granville, S.; Yu, D. P.; et al., Physical Review Letters 104: 146601, 2010.
36.Optical properties of the ZnO nanotubes synthesized via vapor phase growth: Applied Physics Letters 83(9), 1689-1691, 2003.
37.Ultraviolet-emitting ZnO nanowires synthesized by a physical vapor deposition approach: Applied Physics Letters 78(4), 407-409, 2001.
38.Amorphous silica nanowires: Intensive blue light emitters: Applied Physics Letters 73(21), 3076-3078, 1998.
