王旭 副教授博导

邮箱:xuwang@tongji.edu.cn

联系方式:

上海市四平路1239号 同济大学 声学馆202室

个人简历
教育经历:2009-8至2012-8, The Hong Kong Polytechnic University, 声学, 博士
2006-9至2009-3, 南京大学, 声学, 硕士
2002-9至2006-7, 南京大学, 声学, 学士

工作经历:2017/12 - , 同济大学, 声学研究所, 副教授
2013/07 - 2017/12, 同济大学, 声学研究所, 讲师
2012/08 - 2013/06,
The Hong Kong Polytechnic University,屋宇设备工程学系, Research Associate
教学情况

本科生课程:大学物理学(上、下)

研究生课程:凝聚态物理新进展

研究方向

研究方向为基于声功能材料的环境噪声控制,具体工作包括绿色建筑宽带通风隔声窗、面向城市复杂立体交通的干涉型声屏障等。


科研项目:


宽带通风隔声结构,国家自然科学基金面上项目,2021-2024,主持

绿色建筑通风隔声窗,上海市自然科学基金面上项目,2020-2023,主持

相位和幅度耦合多重干涉型声屏障机理研究,国家自然科学基金面上项目,2018-2021,主持

基于弹性波色散理论的500kV低噪声变压器箱体结构降噪关键技术研究,中国电网,共同主持

基于准周期共鸣器阵列的声阻抗突变界面爆裂声抑制研究,国家自然科学基金青年项目,主持

亚波长尺度声结构阵列构建的非均匀阻抗界面特性研究,中央高校基本科研业务费,主持

Theoretical, numerical and experimental investigations on low-frequency board-band noise control in ventilation systems based on periodic and quasi-periodic Helmholtz resonators arrayResearch Grants Council of Hong Kong共同主持



奖励荣誉
获奖:
荣誉:

2022上海市青年拔尖人才

2023中国新锐科技人物卓越影响奖

学术兼职

上海市声学学会理事,中国声学学会环境声学分会委员,中国环境科学学会环境噪声防治专业委员会委员;

国家自然科学基金委、上海市科委项目评审专家;

NATURE COMMUNICATION, EXTREME MECHANICAL LETTERS, APPLIED PHYSICAL LETTER, JOURNAL OF THE ACOUSTICAL SOCIETY OF AMERICA, BUILDING AND ENVIROMENT 期刊审稿人。

主要论著

  1. (Review) X. Wang, R. Dong, Y. Li*, and Y. Jing*, Non-local and non-hermitian acoustic metasurfaces, Rep. Prog. Phys. 86, 116501 (2023).

  2. Q. Li, R. Dong, D. Mao, X. Wang*, Y. Li*, A Compact Broadband Absorber Based on Helical Metasurfaces, International Journal of Mechanical Sciences 254, 108425 (2023).

  3. X. Fang, N. Wang, W. Wu*, W. Wang, X. Yin, X. Wang*, Y. Li*, Extreme Wave Manipulation via Non-Hermitian Metagratings on Degenerated States, Physical Review Applied 19, 054003 (2023).

  4. Z. Zhou, B. Jia, N. Wang, X. Wang*, Y. Li*, Observation of Perfectly-Chiral Exceptional Point via Bound State in the Continuum, Physical Review Letters 130, 116101 (2023).

  5. (Editors' Suggestion) Y. Zhu, R. Dong, D. Mao*, X. Wang*, Y. Li*, Nonlocal Ventilating Metasurfaces, Physical Review Applied 19, 014067 (2022).

  6. C. Baydur, X. Wang, and D. Mao*, The acoustics program at the Institute of Acoustics, Tongji University, China, J. Acoust. Soc. Am. 152, 1058–1067 (2022)

  7. X. Fang, N. Gerard, Z. Zhou, H. Ding, N. Wang, B. Jia, Y. Deng, X. Wang*, Y. Jing*, and Y. Li*, Observation of higher-order exceptional points in a non-local acoustic metagrating, Communication Physics 4, 271(2021).

  8. R. Dong, D. Mao, Y. Zhu, F. Mo, X. Wang* and Y. Li*, A ventilating acoustic barrier for attenuating broadband diffuse sound, Applied Physics Letters119, 263505 (2021).

  9. (Review) R. Dong, M. Sun, F. Mo, D. Mao, X. Wang*, and Y. Li*, Recent advances in acoustic ventilation barriers, J. Phys. D: Appl. Phys. 54, 403002 (2021).

  10. R. Dong, D. Mao, X. Wang*, and Y. Li*, Ultrabroadband Acoustic Ventilation Barriers via Hybrid-Functional Metasurfaces, Physical Review Applied 15, 024044 (2021).

  11. S. Huang, T. Liu, Z. Zhou, X. Wang*, J. Zhu*, and Y. Li*, Extreme sound confinement from quasibound states in the continuum, Physical Review Applied 14, 021001 (2020).

  12. M. Sun, X. Fang, D. Mao*, X. Wang*, and Y. Li*, Broadband acoustic ventilation barriers, Physical Review Applied 13, 044028 (2020).

  13. S. Huang, Z. Zhou, D. Li, T. Liu, X. Wang*, J. Zhu* and Y. Li*, Compact broadband acoustic sink with coherently coupled weak resonances, Science Bulletin 65, 373-379 (2020).

  14. X. Wang, X. Fang, D. Mao, Y. Jing*, and Y. Li*, Extremely asymmetrical acoustic metasurface mirror at the exceptional point, Physical Review Letters 123, 214302 (2019).

  15. X. Fang, X. Wang*, and Y. Li*, Acoustic splitting and bending with compact coding metasurfaces, Physical Review Applied 11, 064033 (2019).

  16. Y. Xiao, H. Lai, Q. Li, XN. Wang, and X. Wang*, Improved interference-type sound barriers: Use of hyperbolic phase modulation, Applied Acoustics 161, 107186 (2020).

  17. W. Zhao, Z. X. Jiang, X. Wang*, and D. Mao*, Characteristics of fine-scale turbulence noise evaluated by modal analysis, Applied Acoustics, 160, 107145 (2020).

  18. X. Wang, W. Yu, Z. Jiang, X. Wang*, and D. Mao*, Acoustic gradient surfaces and gradient-index surfaces: Principles and applications on noise control, Applied Acoustics 143, 151-156 (2019).

  19. S. J. Qiu, S. Li, X. Wang*, and D. Mao*, Enhanced transmission loss through lattice-supported micro-membranes, Applied Acoustics 153, 127-131 (2019).

  20. S. B. Huang, X. S. Fang, X. Wang, B. Assouar, Q. Cheng*, and Y. Li*, Acoustic perfect absorbers via spiral metasurfaces with embedded apertures, Applied Physics Letter 113, 233501 (2018).

  21. S. Li D. Mao*, S. Huang, X. Wang*Enhanced transmission loss in acoustic materials with micro-membranes, Applied Acoustics 130, 92-98(2017).

  22. S. HuangS. Li, X. Wang*Dongxing Mao*Micro-perforated absorbers with incompletely partitioned cavitiesApplied Acoustics 126, 114-119(2017).

  23. X. Wang, W. Yu, X. Zhu, Z. Jiang, and D. Mao*, Effects of ceiling phase gradients on the acoustic environment on roadside balconies, Journal of the Acoustical Society of America 141, EL146-EL152 (2017).

  24. X. Wang, D. Mao*, and Y. Li*, Broadband acoustic skin cloak based on spiral metasurfaces, Scientific Reports 7, 11604(2017).

  25. X. Wang, XN. Wang, W. Yu, Z. Jiang, and D. Mao*, Acoustic performance of boundaries having constant phase gradient, Journal of the Acoustical Society of America 140, EL7-EL13 (2016).

  26. X. Wang, XN. Wang, W. Yu, Z. Jiang, and D. Mao*, A theoretical model of barriers having inhomogeneous impedance surfaces, Journal of the Acoustical Society of America 139, EL63-69(2016).

  27. W. Yu, X. Wang, R. Wu, J. Yu, Z. Jiang*, D. Mao, Wave propagation in a waveguide with continuous right-angled corners: Numerical simulations and experiment measurements, Applied Acoustics 104, 6-15 (2016).

  28. X. Wang, D. Mao*, W. Yu, and Z. Jiang, Sound barriers from materials of inhomogeneous impedance, Journal of the Acoustical Society of America 137, 1-8 (2015).

  29. X. Wang, D Mao*, W. Yu, and Z. Jiang, Acoustic performance of balconies having inhomogeneous ceiling surfaces on a roadside building facade, Building and Environment 93, 1-8 (2015).

  30. X. Wang and C.M. Mak*, Disorder in a periodic Helmholtz resonators array, Applied Acoustics 82: 1-5(2014).

  31. C.M. Mak*, X Wang and Z. Ai, Prediction of flow noise from in-duct spoilers using Computational Fluid Dynamics, Applied Acoustics 76, 386-390(2014).

  32. X. Wang and C.M. Mak*Acoustic performance of a duct loaded with identical resonatorsJournal of the Acoustical Society of America 131, EL316-EL322(2012).

  33. X. Wang and C.M. Mak*, Wave propagation in a duct with a periodic Helmholtz resonators array, Journal of the Acoustical Society of America 131, 1172~1182(2012).