| 张成 研究员 E-mail: zhangcheng@fudan.edu.cn 课题组链接:https://qmd.fudan.edu.cn 办公地点:江湾校区交叉一号楼B1014 |
个人简介:
张成,生于1993年,2014年和2019年分别获复旦大学物理系学士和博士学位,2017至2018年在华盛顿大学物理系联合培养,2019年入职复旦大学微纳电子器件与量子计算机研究院担任青年研究员、博士生导师,2022年晋升为研究员,入选国家高层次人才计划青年拔尖人才、上海市东方英才计划领军项目、上海市教委曙光学者、上海市青年拔尖人才和上海市青年科技英才扬帆计划等人才项目,主持科技部重点研发计划青年项目,基金委重大研究计划培育项目和面上项目等。
主要从事低维体系的量子输运、声电效应和电子器件研究,代表性工作包括发现基于外尔轨道的三维量子霍尔效应、高导电率拓扑表面态、震荡声电效应等。在Nature、Nature Materials、Nature Reviews Physics、Nature Communications、PRL等学术期刊共发表论文50余篇。
研究方向:
量子输运
声电及声光电器件
低温强磁场精密测量
红外光谱及光电器件
Research Interests:
Quantum Transport
Acoustoelectric and Acousto-optoelectronic Devices
High-precision Measurement under Low Temperature and High magnetic field
Infrared Spectroscopy and Optoelectronic Devices
代表性论文(通讯/一作):
1. Coherent detection of the oscillating acoustoelectric effect in graphene, Physical Review Letters. 134, 096301 (2025) (Editors’ Suggestion)
2. Observation of quantum oscillations and quasiparticle mass enhancement near the Mott-Ioffe-Regel limit, National Science Review 11(12), nwae127 (2024)
3. Topological Lifshitz transition and one-dimensional Weyl mode in HfTe5, Nature Materials 22, 84-91 (2023) (Highlight by Nature Materials 22, 408–409 (2023))
4. Magnetic-field-induced nonlinear transport in HfTe5, National Science Review 9(10), nwab208 (2022)
5. Cycling Fermi arc electrons with Weyl orbits, Nature Reviews Physics 3, 660-670 (2021)
6. The discovery of dynamic chiral anomaly in a Weyl semimetal NbAs, Nature Communications 11, 1259 (2020) (Highlight by Nature Physics 16, 374 (2020))
7. Quantum Hall effect based on Weyl orbits in Cd3As2, Nature 565, 331–336 (2019) (Highlighted by Journal Club for Condensed Matter Physics)
8. Ultrahigh conductivity in Weyl semimetal NbAs nanobelts, Nature Materials 18, 482-488 (2019) (Highlight by Nano Today, 26, 6-7 (2019))
9. Evolution of Weyl orbit and quantum Hall effect in Dirac semimetal Cd3As2, Nature Communications 8, 1272 (2017)
10. Room-temperature chiral charge pumping in Dirac semimetals, Nature Communications 8, 13741 (2017) (Highlight by Science 355, 921-922 (2017) and Journal Club for Condensed Matter Physics)
