李洋沐

简介


现任中国科学院物理研究所特聘研究员,博士生导师。2010年武汉大学理学学士,2017年美国明尼苏达大学物理学博士(导师: Martin Greven, 学术指导 Chair: 美国科学院院士 Allen Goldman), 2017-2021年于美国布鲁克海文国家实验室进行博士后研究(合作导师: 美国科学院院士 John Tranquada)。曾在美国能源部功能纳米材料中心和橡树岭国家实验室担任项目负责人,参与了美国散裂中子源极化中子非弹时间飞行谱仪和相关分析软件的研发改进工作,曾在美国阿贡国家实验室,美国强磁国家实验室,法国布里渊实验室,欧洲劳尔-朗之万研究所,加拿大TRIUMF粒子加速中心等进行访问研究工作。2021年9月加入中国科学院物理研究所。

主要研究方向


多维度跨尺度 谱学与量子传感(实空间、动量空间、能量空间)

1. 强关联超导物理与复杂量子自旋磁性;

2. 动量空间~Å-1分辨极化中子磁性谱学 与 实空间~10nm分辨的扫描NV色心自旋量子传感;

3. 数十GHz频谱 及 0.5 - 数百meV 准连续全能量范围自旋磁性;

4. 非常规体系磁性探测;

5. 聚焦离子束构建、表征微纳米新型超导和量子磁性功能器件原型。

过去的主要工作及获得的成果


研究工作发表在国际知名期刊,包括Nature Physics/Materials (x 4), Science Advances/Nature Communications (x 5), Physical Review Letters/Physical Review X (x 4);相关工作被 AAAS EurekAlert, Phys.org, ScienceDaily, Materials Today, Superconductor Week等科学新闻媒体报导;在APS March Meeting (兼任Session Chair)、中国物理年会等国际国内会议,美、加、法、中等国科研院校作邀请报告;担任科学通报与Science Bulletin特邀编委,担任国际大科学装置(美国SNS,HFIR,日本J-PARC等)项目评审。

近期工作包括:

1. 利用跨尺度测量手段观测到微观磁性调控的拓扑-超导态和常规态;

2. 观测发现电子库珀对超量子金属态;

3. 构建了量子材料磁性分子轨道波函数的新型测量方法;

4. 发展了单晶材料的离子束三维修饰技术以及极化中子非弹时间飞行谱学技术,已应用在美国能源部功能纳米材料中心和美国散裂中子源。

与中国、美国、加拿大、法国、日本等国大型实验装置、科研院校建立了良好的合作关系。欢迎大家一起研究合作。

代表性论文及专利


(* 通讯,# 共一)

加入物理所以后年度统计:

2023年:Nature Physics x 1, Science Advances x 1, Science Bulletin x 1, PRB x 1, PRM x 2

2022年:PRX x 1, Science Bulletin x 1, PRB x 4, PR Applied x1, Small x1

-------------------------------------------加入物理所之后 代表工作-------------------------------------------

[21] Z. Jin#, Yangmu Li#, Z. Hu#, B. Hu, Y. Liu, K. Iida, K. Kamazawa, M. B. Stone, A. I. Kolesnikov, D. L. Abernathy, X. Zhang, H. Chen, Y. Wang, C. Fang, B. Wu, I. A. Zaliznyak, J. M. Tranquada and Y. Li, Magnetic molecular orbitals in MnSi,  Science Advances 9, eadd5239 (2023)

[20] X. Jiang, M. Qin, X. Wei, L. Xu, J. Ke, H. Zhu, R. Zhang, Z. Zhao, Q. Liang, Z. Wei, Z. Lin, Z. Feng, F. Chen, P. Xiong, J. Yuan, B. Zhu, Yangmu Li, C. Xi, Z. Wang, M. Yang, J. Wang, T. Xiang, J. Hu, K. Jiang, Q. Chen, K. Jin and Z. Zhao, Interplay between superconductivity and the strange-metal state in FeSe, Nature Physics 19, 365 (2023)

[19] J. Xu, M. Qin, Z. Lin, X. Zhang, R. Zhang, L. Xu, L. Zhang, Q. Shi, J. Yuan, B. Zhu, C. Dong, R. Xiong, Q. Chen, Yangmu Li*, J. Shi*, and K. Jin, In situ electrical and thermal transport properties of FeySe1−xTex films with ionic liquid gatingPhysical Review B 107, 094514 (2023)

[18]  C. Liu, W. Cheng, X. Zhang, J. Xu, J. Li, Q. Shi, C. Yuan, L. Xu, H. Zhou, S. Zhu, J. Sun, W. Wu, J. Luo, K. Jin, and Yangmu Li*, Phases and magnetism at microscale in compounds containing nominal Pb10−xCux(PO4)6O, Physical Review Materials 7, 084804 (2023)

[17] X. Bai, F. Chen, Y. Wang, J. Xu, R. Zhang, M. Qin, W. Cheng, J. Zhang, Q. Shi, X. Wang, B. Zhu, J. Yuan, Q. Chen, J. Kang, K. Jiang, J. Hu, Yangmu Li*, K. Jin*, and Z. Zhao Charge-carrier-type controlled superconducting dome in ZrNxOy filmsPhysical Review Materials 7, 094801 (2023)

[16] F. Chen, X. Bai, Y. Wang, T. Dong, J. Shi, Y. Zhang, X. Sun, Z. Wei, M. Qin, J. Yuan, Q. Chen, X. Wang, X. Wang, B. Zhu, R. Huang, K. Jiang, W. Zhou, N. Wang, J. Hu, Yangmu Li*, K. Jin*, Z. Zhao, Emergence of superconducting dome in ZrNx films via variation of nitrogen concentration, Science Bulletin 68, 674 (2023)

[15] Yangmu Li, A. Sapkota, P. M. Lozano, Z. Du, H. Li, Z. Wu, A. K. Kundu, R. J. Koch, L. Wu, B. L. Winn, S. Chi, M. Matsuda, M. Frontzek, E. S. Božin, Y. Zhu, I. Božović, A. N. Pasupathy, I. K. Drozdov, K. Fujita, G. D. Gu, I. A. Zaliznyak, Q. Li and J. M. Tranquada, Strongly overdoped La2−x SrxCuO4: Evidence for Josephson-coupled grains of strongly correlated superconductor, Physical Review B 106, 224515 (2022)

[14] X. Li, Y. Gu, Y. Chen, V. O. Garlea, K. Iida, K. Kamazawa, Yangmu Li, G. Deng, Q. Xiao, X. Zheng, Z. Ye, Y. Peng, I. A. Zaliznyak, J. M. Tranquada and Y. Li, Giant Magnetic In-Plane Anisotropy and Competing Instabilities in Na3Co2SbO6, Physical Review X 12, 041024 (2022)

[13] Z. Lin, S. Tu , J. Xu, Y. Shi, B. Zhu, C. Dong, J. Yuan, X. Dong, Q. Chen, Yangmu Li, K. Jin , Z. Zhao, Phase diagrams on composition-spread FeyTe1−xSex films, Science Bulletin 67, 1443 (2022)

-------------------------------------------加入物理所之前 代表工作-------------------------------------------

[12] Yangmu Li, N. Zaki, A. T. Savici, V. O. Garlea, D. Fobes, Z. Xu, F. Camino, C. Petrovic, G. Gu, P. D. Johnson, J. M. Tranquada, and I. A. Zaliznyak, Electronic properties of the bulk and surface states of Fe1+yTe1-xSex, Nature Materials 20, 1221 (2021) [文章被报导于 AAAS EurekAlert, Phys.org, ScienceDaily, Brookhaven 等科学新闻媒体]

[11] A. de la Torre, K. Seyler, L. Zhao, S. Di Matteo, M. Scheurer, Yangmu Li, B. Yu, M. Greven, S. Sachdev, M. Norman, D. Hsieh, Anomalous mirror symmetry breaking in a model insulating cuprate Sr2CuO2Cl2, Nature Physics 17, 777 (2021)

[10] J. Yin, N. Shumiya, Y. Jiang, H. Zhou, G. Macam, S. S. Zhang, H. O. M. Sura, Z. Cheng, Z. Guguchia, Yangmu Li, Q. Wang, M. Litskevich, I. Belopolski, X. Yang, T. A. Cochran, G. Chang, Q. Zhang, B. M. Andersen, Z. Huang, F. Chuang, H. Lin, H. Lei, Z. Wang, S. Jia, M. Z. Hasan. Spin-orbit quantum impurity in a topological kagome magnet, Nature Communications 11, 4415 (2020)

[9] Yangmu Li, J. Terzic, P. G. Baity, D. Popovic, G. D. Gu, Qiang Li, A. M. Tsvelik and J. M. Tranquada, Tuning from failed superconductor to failed insulator with magnetic field, Science Advances 5, aav7686 (2019) [文章被报导于 AAAS EurekAlert, Phys.org, ScienceDaily, Materials Today, Brookhaven, NHMFL 等科学新闻媒体]

[8] Yangmu Li*, W. Tabis, Y. Tang, G. Yu, J. Jaroszynski, N. Barišić* and M. Greven*. Hole-pocket-driven superconductivity and its universal features in the electron-doped cuprates, Science Advances 5, aap7349 (2019) 

[7] Yangmu Li*, Q. Wang, L. DeBeer-Schmitt, Z. Guguchia, R. D. Desautels, J. Yin, Q. Du, W. Ren, X. Zhao, Z. Zhang, I.A. Zaliznyak, C. Petrovic, W. Yin, M. Z. Hasan, H. Lei*, J. M. Tranquada. Magnetic-field control of topological electronic response near room temperature in correlated Kagome magnets, Physical Review Letters 123, 196604 (2019)

[6] Yangmu Li*, J. Wu, F. Camino, G. D. Gu, I. Božović and J. M. Tranquada. Large surface conductance and superconductivity in topological insulator microstructures, Applied Physics Letters 115, 173507 (2019) [文章被报导于 Superconductor Week 工业杂志]

[5] Yangmu Li, R. Zhong, M. B. Stone, A. I. Kolesnikov, G. D. Gu, I. A. Zaliznyak, J. M. Tranquada. Antiferromagnetic spin gap limits the coherent superconducting gap in cuprates, Physical Review B 98, 224508 (2018)

[4] Yangmu Li, W. Tabis, E. M. Motoyama, G. Yu, N. Barišić and M. Greven, Hidden Fermi-liquid charge transport in the antiferromagnetic phase of the electron-doped cuprate superconductors, Physical Review Letters 117, 197001 (2016)

[3] E. H. da Silva Neto, B. Yu, M. Minola, R. Sutarto, E. Schierle, F. Boschini, M. Zonno, M. Bluschke, J. Higgins, Y. Jiang, Yangmu Li, G. Yu, E. Weschke, F. He, M. Le Tacon, R. L. Greene, M. Greven, G. A. Sawatzky, B. Keimer, and A. Damascelli, Doping dependent charge order correlations in electron-doped cuprates, Science Advances 2, 1600782 (2016)

[2] M. K. Chan, M. Veit, C. Dorow, G. Yang, Yangmu Li, W. Tabis, Y. Tang, X. Zhao, N. Barišić, and M. Greven. In-Plane Magnetoresistance Obeys Kohler's Rule in the Pseudogap Phase of Cuprate Superconductors. Physical Review Letters 113, 177005 (2014)

[1] Yuan Li, G. Yu, M. K. Chan, V. Balédent, Yangmu Li, N. Barišić, X. Zhao, K. Hradil, R. A. Mole, Y. Sidis, P. Steffens, P. Bourges & M. Greven, Two Ising like collective magnetic excitations in a single-layer cuprate superconductor. Nature Physics 8, 404 (2012)

目前的研究课题及展望


主持国家青年人才项目、中国科学院人才项目、国家自然科学基金面上项目;承担国家重点研发计划,中国科学院青年团队项目。

培养研究生情况


每年招收来自物理、材料等专业的硕博连读生。欢迎有晶体生长、微纳加工、谱学测量或极端条件电学输运工作背景的毕业生进行博士后研究工作。

 

其他联系方式


中国科学院大学页面

Group Page - 英文 (Google site)

Email


yangmuli@iphy.ac.cn

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