祝捷 长聘教授博导 邮箱:jiezhu@tongji.edu.cn 联系方式: 上海市杨浦区四平路1239号同济大学声学馆302室 jiezhu@tongji.edu.cn |
1994.09-2002.06,南京大学,理学学士、硕士
2004.01-2008.08,宾夕法尼亚州立大学,哲学博士
2009.01-2014.07,加利福尼亚大学伯克利分校,博士后研究员
2014.07-2018.06,香港理工大学,助理教授
2018.07-2021.09,香港理工大学,终身教职副教授
2021.10-至今,同济大学,教授
金莎娱乐app下载官网声学研究所教授,香港城市大学客座教授,教育部长江学者奖励计划特聘教授。长期系统从事物理声学、结构声学材料、声学成像技术等基础前沿研究和应用探索。作为第一作者/通讯作者多次在自然物理Nature Physics,国家科学评论National Science Review、物理评论快报Physical Review Letters,自然通讯Nature Communications等国际顶级学术杂志发表论文。主持承担了中国国家自然科学基金委员会、科技部、教育部以及香港特别行政区政府教资会研资局的多项研究项目。现任中国声学学会理事、中国材料研究学会超材料分会理事、中国声学学会物理声学和教育分会委员、Ultrasonics杂志和Advanced Devices & Instrumentation杂志编委。曾任国际噪声控制工程大会等多个国际会议组委会成员或分会主席。
主持在研科研项目:
• 国家自然科学基金委员会“功能基元序构的高性能材料基础研究“重大研究计划重点项目:“基于损耗调控功能基元的高性能声学序构材料研究”;
• 科技部国家重点研发计划“物态调控“重点专项“超构声学材料的新奇物态调控及前沿应用研究”项目课题:“非厄米声学物态调控”;
• 教育部产学合作协同育人项目:“新型建筑声学超构材料教研实践平台” 。
人才培养:
博后:
顾仲明:同济大学物理学与工程学院,助理教授;
陈亚枫:香江学者,香港理工大学,博后;
刘宸:同济大学,博后。
研究生:
刘拓:2018届博士毕业生,中国科学院声学研究所,研究员,入选基金委海外优青项目;
梁善军:2020届博士研究生,香港理工大学继续教育学院,高级讲师;
郜贺:2021届博士研究生,香港理工大学,博后;
黄思博:2022届同济大学/香港理工大学双学位博士研究生,香港城市大学,博后;
安烁威:2023届博士研究生,香港理工大学,博后;
范海燕:2020级博士研究生,香港理工大学;
范磊:2021级博士研究生,香港理工大学;
郭佳敏:2022级博士研究生,同济大学;
王迪:2022级硕士研究生,同济大学;
许雨薇:2023级博士研究生,同济大学;
苏胤杰:2023级硕士研究生,同济大学。
媒体报道:
• “Acoustic Diode Hits the Perfect Note”, Sarah Wild, Physics.org.
• “Boxes Go Topological for Sound”, Sophia Chen, Physics.org.
• “Bendable Sound Waves Can Skirt Objects, Trap Particles”, Neil Savage, IEEE Spectrum.
• “Bottling Up Sound Waves”, Lynn Yarris, Lawrence Berkeley National Laboratory.
• “Acoustic bottle beams hold promise for acoustic imaging, cloaking and levitation”, Colin Jeffrey, Gizmag.
• “Forget cloaks, this invisibility BOTTLE bends sound waves to hide objects”, Ellie Zolfagharifard, Daily Mail Online.
• “'Bottle' Of Sound Waves Could Be Used For Invisibility”, Rebekah Marcarelli, Headline & Global News.
• “Holey Metamaterial Promises High-Resolution Ultrasound Images”, Shana Leonard, Medical Product Manufacturing News, Volume 27, No.1.
• “The Sight of Sound”, Monica Smith, Berkeley Science Review.
• “Novel metamaterial vastly improves quality of ultrasound imaging”, Robert Sanders, UC Berkeley News Center.
• “Ultrasound Imaging Quality Greatly Improved by Unique Metamaterial”, Staff Writer, Medical Imaging International.
• “Metamaterials: Bringing the Magic of Invisibility to Life”, Regina McCarthy, Chemical Engineering Progress.
• “Acoustic superlens a very cool proof-of-principle”, Chris Lee, Ars Technica.
香港城市大学 客座教授
中国声学学会 理事
中国材料学会超材料分会 理事
中国声学学会物理声学分会 委员
中国声学学会教育分会 委员
Ultrasonics杂志 编委(Editorial Board Member)
Advanced Devices & Instrumentation杂志 编委(Editorial Board Member)
Physical Review Letters杂志 ad hoc Divisional Associate Editor
Physical Review X杂志 ad hoc Editorial Board member
部分代表论文:
• L. Fan, Y. Chen, S. An, T. Liu, H. Fan, J. Zhu and Z. Su, “Local-Resonance-Induced Dual-Band topological corner states of fexural waves in a perforated metaplate”, Physical Review Applied, 19, 3, 034065, 2023.
• Z. Gu, H. Gao, P. Cao, T. Liu, X. Zhu and J. Zhu, “Transient non-Hermitian skin effect”, Nature Communications, 13 (1), 7668, 2022.
• X. Wu, H. Fan, T. Liu, Z. Gu, R.Y. Zhang, J. Zhu and X. Zhang, “Topological phononics arising from fluid-solid interactions”, Nature Communications, 13 (1), 6120, 2022.
• Z. Zhou, S. Huang, D. Li, J. Zhu and Y. Li, “Broadband impedance modulation via non-local acoustic metamaterials”, National Science Review, 9 (8), nwab171, 2022.
• S. Huang, S. Xie, H. Gao, T. Hao, S. Zhang, T. Liu, Y. Li and J. Zhu “Acoustic Purcell effect induced by quasibound state in the continuum”, Fundamental Research, Online, 2022.
• O. You, S. Liang, B. Xie, W. Gao, W. Ye, J. Zhu and S. Zhang, “Observation of Non-Abelian thouless pump”, Physical Review Letters, 128, 244302, 2022.
• T. Liu, S. An, Z. Gu, S. Liang, H. Gao, G. Ma and J. Zhu, “Chirality-switchable acoustic vortex emission via non-Hermitian selective excitation at an exceptional point”, Science Bulletin, 67 (11), 1131-1136, 2022.
• H. Gao, Z. Gu, S. Liang, T. Liu, J. Zhu and Z. Su, “Enhancing ultrasound transmission and focusing through a stiff plate with inversely optimized auxiliary meta-lens”, Applied Physics Letters, 120 (11), 111701, 2022.
• X. Yang, J. Li, Y. Ding, M. Xu, X. F. Zhu and J. Zhu, “Observation of transient Parity-Time symmetry in electronic systems”, Physical Review Letters, 128 (6), 065701, 2022.
• Z. Gu, H. Gao, P. Cao, T. Liu, X. Zhu and J. Zhu, “Controlling sound in non-hermitian acoustic systems”, Physical Review Applied, 16, 057001, 2021.
• H. Gao, H. Xue, Z. Gu, T. Liu, J. Zhu and B. Zhang, “Non-Hermitian route to higher-order topology in an acoustic crystal”, Nature Communications, 12 (1), 1-7, 2021.
• Z. Gu, H. Gao, T. Liu, S. Liang, S. An, Y. Li and J. Zhu, “Topologically Protected Exceptional Point with Local Non-Hermitian Modulation in an Acoustic Crystal”, Physical Review Applied, 15 (1), 014025, 2021.
• S. Liang, T. Liu, H. Gao, Z. Gu, S. An and J. Zhu, “Acoustic metasurface by layered concentric structures”, Physical Review Research, 2 (4), 043362, 2020.
• H. Gao, Z. Gu, S. Liang, S. An, T. Liu and J. Zhu, “Coding Metasurface for Talbot Sound Amplification”, Physical Review Applied, 14 (5), 054067, 2020.
• H. Gao, H. Xue, Q. Wang, Z. Gu, T. Liu, J. Zhu and B. Zhang, “Observation of topological edge states induced solely by non-Hermiticity in an acoustic crystal”, Physical Review B, 101 (18), 180303 , 2020.
• H. Z. Chen, T. Liu, H. Y. Luan, R. J. Liu, X. Y. Wang, X. F. Zhu, Y. B. Li, Z. M. Gu, S. Liang, H. Gao, L. Lu, L. Ge, S. Zhang, J. Zhu and R. M. Ma, “Revealing the missing dimension at an exceptional point”, Nature Physics, 16 (5), 571-578, 2020.
• J. Zhu, X. Zhu, X. Yin, Y. Wang and X. Zhang, “Unidirectional Extraordinary Sound Transmission with Mode-Selective Resonant Materials”, Physical Review Applied, 13 (4), 041001, 2020. Featured in Physics, Letter
• 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 (5), 373-379, 2020.
• Y. G. Peng, Y. X. Shen, Z. G. Geng, P. Q. Li, J. Zhu and X. F. Zhu, “Super-resolution acoustic image montage via a biaxial metamaterial lens”, Science Bulletin, 65 (12), 1022-1029, 2020.
• H. Gao, X. Fang, Z. Gu, T. Liu, S. Liang, Y. Li and J. Zhu, “Conformally Mapped Multifunctional Acoustic Metamaterial Lens for Spectral Sound Guiding and Talbot Effect”, Research, 1748537, 2019.
• T. Liu, F. Chen, S. Liang, H. Gao and J. Zhu, “Subwavelength Sound Focusing and Imaging Via Gradient Metasurface-Enabled Spoof Surface Acoustic Wave Modulation”, Physical Review Applied, 11 (3), 034061, 2019.
• Y. X. Shen, Y. G. Peng, D. G. Zhao, X. C. Chen, J. Zhu and X. F. Zhu, “One-Way Localized Adiabatic Passage in an Acoustic System”, Physical Review Letters, 122 (9), 094501, 2019.
• T. Liu, X. F. Zhu, F. Chen, S. Liang and J. Zhu, “Parity-time symmetry beyond one dimension with all passive acoustic metamaterials crystal”, Physical Review Letters, 120 (12), 124502, 2018.
• X. Zhu, K. Li, P. Zhang, J. Zhu, J. Zhang, C. Tian and S. Liu, “Implementation of dispersion-free slow acoustic wave propagation and phase engineering with helical-structured metamaterials”, Nature Communications, 7, 11731, 2016.
• P. Zhang, T. C. Li, J. Zhu, X. Zhu, S. Yang, Y. Wang, X. Yin and X. Zhang, “Generation of acoustic self-bending and bottle beams by phase engineering”, Nature Communications, 5, 4316, 2014.
• J. Zhu, Y. Chen, X. Zhu, F. Garcia-Vidal, X. Yin, W. Zhang and X. Zhang, “Acoustic rainbow trapping”, Scientific Reports, 3, 1728, 2013.
• J. Zhu, J. Christensen, J. Jung, L. Martin-Moreno, X. Yin, L. Fok, X. Zhang and F. J. Garcia-Vidal, "A holey-structured metamaterial for acoustic deep-subwavelength imaging", Nature Physics, Vol. 7, 52, 2011.