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邮箱:yaxianw@iphy.ac.cn
简介:
2015.08 - 2019.11 美国俄亥俄州立大学,博士
2019.11 - 2022.05 哈佛大学,博士后
2022.05 至今 中国科学院物理研究所,副研究员
主要研究方向:
非常规输运性质的理论研究。基于对晶体化学和电子结构的理解,通过发展和应用第一性原理和多尺度模拟计算方法,与实验研究紧密结合,探索量子材料中准粒子动力学的微观机制,预测其输运和响应。
过去的主要工作及获得的成果:
1. 建立了电子输运中轴向-载流子电性耦合的goniopolar理论
2. 参与开发了声子介导的电子驰豫时间的计算程序,提出声子介导的electron hydrodynamics的微观机制
代表性论文及专利:
B. He*, Y. Wang*, M. Q. Arguilla, N. D. Cultrara, M. R. Scudder, J. E. Goldberger, W. Windl, and J. P. Heremans, The Fermi surface geometrical origin of axis-dependent conduction polarity in layered materials, Nat. Mater., 18.6 (2019): 568 (*equal contribution)
Y. Wang, K. Koster, A. Ochs, M. Scudder, J. Heremans, W. Windl, and J. E. Goldberger, The chemical design principles for axis-dependent conduction polarity, J. Am. Chem. Soc., 142.6 (2020): 2812-2822
Y. Wang, P. Narang, Anisotropic scattering in the goniopolar metal NaSn2As2, Phys. Rev. B, 102 (2020): 125122
U. Vool*, A. Hamo*, G. Varnavides*, Y. Wang*, T. Zhou, N. Kumar, Y. Dovzhenko, Z. Qiu, C. Garcia, A. Pierce, J. Gooth, P. Anikeeva, C. Felser, P. Narang, A. Yacoby, Imaging phonon-mediated hydrodynamic flow in WTe2, Nat. Phys., 17 (2021): 1216–1220 (*equal contribution)
Y. Wang, and W. Windl, Native point defects from stoichiometry-linked chemical potentials in cubic boron arsenide, J. Appl. Phys., 129.7 (2021): 075703
Y. Wang, Z. Chen, W. Windl, J-C Zhao, Nonlinear Arrhenius behavior of self-diffusion in β-Ti and Mo, Phys. Rev. Materials, 6 (2022): 063402
Y. Wang, G. Varnavides, P. Anikeeva, J. Gooth, C. Felser, P. Narang, Generalized design principles for hydrodynamic electron transport in anisotropic metals, Phys. Rev. Materials, 6 (2022):083802
G. Varnavides*, Y. Wang*, P. J. W. Moll, P. Anikeeva, and P. Narang, Mesoscopic finite-size effects of unconventional electron transport in PdCoO2, Phys. Rev. Materials, 6 (2022): 045002 (*equal contribution)
Google scholar:
https://scholar.google.com/citations?hl=en&user=Tfx0r5IAAAAJ&view_op=list_works&sortby=pubdate
目前的研究课题及展望:
1. goniopolar热电材料的开发和应用
2. 电声耦合驱动的动态物相调控 |
