刘伟伟教授

团队负责人


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Prof. Weiwei Liu (刘伟伟)(Group Leader)

Email: liuweiwei@nankai.edu.cn

 

教育经历

博士学位, 拉瓦尔大学物理系, 加拿大 (2005)

访问学者, 马克思普朗克复杂物理系统研究所, 德国 (2004)

学士学位, 南开大学物理系, 中国 (1998)

 

工作经历

全职教授, 南开大学现代光学研究所, 中国 (2007 - 至今)

博士后, 拉瓦尔大学光学、激光与光子学中心 (COPL), 加拿大 (2006 - 2007)

实验员, 南开大学物理系, 中国 (1998 - 2000)

 

社会服务

南开大学光电子科学与技术系主任 (2018 - 至今)

南开大学现代光学研究所所长 (IMO) (2015 - 至今)

南开大学光学工程学位委员会主席 (2013 - 至今)

 

中国光学学会常务理事 (2016 - 至今)

天津市光学学会副理事长 (2015 - 至今)

天津市激光技术学会副理事长 (2015 - 至今)

 

天津市青年联合会常务理事 (2017 - 至今)

南开大学OSA学生分会指导老师 (2015 - 至今)

南开大学SPIE学生分会指导老师 (2015 - 至今)

 

所获奖励

天津市技术发明二等奖 -- 微尺度光学传感技术 (2020)(第一完成人)

天津市专利奖金奖 -- 一种基于宽光谱分析技术的多组分气体检测装置 (2019) (第一完成人)

天津市专利优秀奖 -- 一种全光纤透反射一体式太赫兹时域光谱系统 (2018) (第一完成人)

天津市知识产权创新创业发明与设计大赛一等奖 (2017)(第一完成人)

天津市自然科学奖等奖 -- 一超快激光与物质相互作用机制、调控及应用研究 (2016) (第一完成人)

 

美国光学学会会士(Optica,原OSA)(2021)

天津市最美科技工作者暨全国推荐人物 (2020)

天津市科普大使 (2020)

中国产学研合作促进会 “中国产学研合作创新奖” (2019)

天津市优秀科技工作者 (2019)

天津市中青年科技创新领军人才奖 (2019)

天津市突出贡献专家奖 (2018)

天津市高水平创新创业团队奖 (2017)

天津市五一劳动节奖章 (2017)

科学中国人年度人物杰出青年科学家 (2015)

全国太赫兹科技年会优秀青年科学家奖 (2015)

全国最美青年科技工作者 (2015)

中国光学学会“王大珩光学奖-中青年科技人员光学奖” (2011)

中国仪器仪表学会“金国藩青年学子奖” (2011)

获霍英东教育基金会青年教师基金资助 (2008)

入选教育部“新世纪优秀人才支持计划” (2007)

中国政府优秀自费留学生奖学金 (2005)

 

科研方向

超快光学与应用、太赫兹科学于技术、光谱于成像技术

 

主要研究成就

主持国家重点研发计划、国家载人航天计划、国家自然科学基金、天津市人才发展专项支持计划等项目30余项。

发表学术论文200余篇,总被引次数8000余次,H因子48 (Google scholar) 。

 

国际会议组织:

Member of the organizing committee International Winter Workshop on Ultrafast Intense Laser Science, February 11-14, 2005, Québec City, Canada

Member of the organizing committee of the China-Quebec bilateral meeting on ultrafast intense laser science, September 30-October 2, 2006 Québec city, Canada

Member of the local organizing committee of the first International Symposium on Ultrafast Intense Laser Filamentation, September 27-30, 2006 Québec city, Canada

Member of the local organizing committee of the Canada-Japan bilateral meeting on ultrafast intense laser science, March 5-8, 2007, Québec City, Canada

Member of the local organizing committee of the 13th International Conference on Multiphoton Processes, December 7-10, 2014, Shanghai, China

Member of the program committee of the 8th International Symposium on Ultrafast Phenomena and Terahertz Waves, October 10-12, 2016, Chongqing, China

Member of the program committee of the 9th International Symposium on Ultrafast Phenomena and Terahertz Waves, April 23-29, 2018, Changsha, China

Chairman of the 11st Asian Symposium on Intense Laser Science, October 29 - November 1, 2019 in Tianjin, China

Member of the program committee of High-Intensity Lasers and High-Field Phenomena, March 23- 25, 2020, Prague, Czech Republic (cancelled due to COVID-19 epidemic)

Member of the local organizing committee of the 10th International Symposium on Ultrafast Phenomena and Terahertz Waves, September 26-29, 2020, Chengdu, China

Member of the local organizing committee of the 22nd Ultrafast Phenomena Conference, November 15-20, 2020, Shanghai, China

Member of the program committee of the 8th International Conference on Laser Filamentation, November 16-20, 2020, Doha, Qatar

Member of the program committee of High-Intensity Lasers and High-Field Phenomena (HILAS) Conference, March 22-25, 2022, Budapest, Hungary

 

代表性论文

(全部论文列表详见

https://scholar.google.com/citations?user=1J6gXCAAAAAJ   

https://publons.com/researcher/817306/weiwei-liu/ )  

 

[1] Wei-Wei Liu, Xi Zeng, Lie Lin, Peng-Fei Qi*, Nan Zhang*, Spectral domain Z-scan technique, Optics and Lasers in Engineering,, 146, 106693 (2021)

[2] Zijie Dai, Manukumara Manjappa, Yunkun Yang, Thomas Cai Wei Tan, Bo Qiang, Song Han, Liang Jie Wong, Faxian Xiu,* Weiwei Liu,*, and Ranjan Singh*, High Mobility 3D Dirac Semimetal (Cd3As2) for Ultrafast Photoactive Terahertz Photonics, Adv. Funct. Mater.,31, 2011011 (2021)

[3] Weiwei Liu, ZhiqiangYu, Dan Lu, Nan Zhang*, Multi-wavelength annular optical pulses generated by double interferent femtosecond Bessel laser beams in silica glass, Optics and Lasers in Engineering, 136, 106330 (2021)

[4] J. Yao, J. Ma, J. Zhao, P. Qi, M. Li, L. Lin, L. Sun, X. Wang, W. Liu*, and Y. Wang*, Corneal hydration assessment indicator based on terahertz time domain spectroscopy, Biomed. Opt. Express, 11, 2073 (2020)

[5] Q. Su, L. Sun, C. Chu, Z. Zhang, N. Zhang, L. Lin, Z. Zeng*, O. Kosareva, W. Liu*, S. L. Chin, Effect of Molecular Orbital Angular Momentum on Spatial Distribution of Fluorescence during Femtosecond Laser Filamentation in Air, J. Phys. Chem. Lett., 11, 730 (2020) (封面文章)

[6] Q. Su, W. Liu, D. Lu, P. Qi, O. Kosareva and N. Zhang*, Influence of the tilting angle of a BBO crystal on the terahertz radiation produced by a dual-color femtosecond laser," IEEE Trans. THz Sci. & Tech., 9, 669-674 (2019)

[7] J. Zhao, W. Liu*, S. Li, D. Lu, Y. Zhang, Y. Peng, Y. Zhu, and S. Zhuang, Clue to a thorough understanding of terahertz pulse generation by femtosecond laser filamentation, Photon. Res., 6, 296 (2018)

[8] Y. Tian, J. Liu*, Y. Bai, S. Zhou, H. Sun, W. Liu*, J. Zhao, R. Li*, & Z. Xu*, Femtosecond-laser-driven wire-guided helical undulator for intense terahertz radiation, Nat, Photon., 11, 242 (2017) (中国光学十大进展)

[9] J. Zhao, W. Chu, Z. Wang, Y. Peng, C. Gong, L. Lin, Y. Zhu, W. Liu*, Y. Cheng, S. Zhuang, and Z. Xu, Strong Spatial Confinement of Terahertz Wave inside Femtosecond Laser Filament, ACS Photon., 2338, 3 (2016)

[10] J. Yang, J. Zhao, C. Gong, H. Tian, L. Sun, P. Chen, L. Lin, and W. Liu*, 3D printed low-loss THz waveguide based on Kagome photonic crystal structure, Opt. Express, 24, 22454 (2016)

[11] L. Liang, M. Qi, J. Yang, X. Shen, J. Zhai, W. Xu, B. Jin, W. Liu*, Y. Feng, C. Zhang, H. Lu, H.-T. Chen, L. Kang, W. Xu, J. Chen, T. Jun Cui, P. Wu and S. Liu, Anomalous Terahertz Reflection and Scattering by Flexible and Conformal Coding Metamaterials, Adv. Opt. Mat., 3, 1374 (2015) (内插彩页)

[12] J. Yang, T. Zeng, L. Lin, and W. Liu*, Beam wandering of femtosecond laser filament in air, Opt. Express, 23, 25628 (2015)

[13] J. Zhao, L. Guo, W. Chu, B. Zeng, H. Gao, Y. Cheng and W. Liu*, Simple method to enhance terahertz radiation from femtosecond laser filament array with a step phase plate, Opt. Lett., 40, 3838 (2015)

[14] X. Sun, T. Zeng, H. Gao, S. Zhang and W. Liu*, Power dependent filamentation of a femtosecond laser pulse in air by focusing with an axicon, J. Phys. B, 48, 094004 (2015) (年度亮点论文)

[15] H. Gao, W. Chu, G. Yu, B. Zeng, J. Zhao, Z. Wang, W. Liu*, Y. Cheng, Z. XuFemtosecond laser filament array generated with step phase plate in airOpt. Express, 21, 4612, (2013)

[16] X. Sun, H. Gao, B. Zeng, S. Xu, W. Liu*, Y. Cheng, Z. Xu, and G. Mu, Multiple filamentation generated by focusing femtosecond laser with axicon, Opt. Lett., 37, 857 (2012)

[17] X. Sun, S. Xu, J. Zhao, W. Liu*, Y. Cheng, Z. Xu, S. L. Chin, and G. Mu, Impressive laser intensity increase at the trailing stage of femtosecond laser filamentation in air, Opt. Express, 20, 4790 (2012)

[18] S. Xu, X. Sun, B. Zeng, W. Chu, J. Zhao, W. Liu*, Y. Cheng, Z. Xu, and S. L. Chin, Simple method of measuring laser peak intensity inside femtosecond laser filament in air, Opt. Express, 20, 299 (2012)

[19] Y. Fu, H. Xiong, H. Xu, J. Yao, B. Zeng, W. Chu, Y. Cheng*, Z. Xu, W. Liu*, and S. L. Chin, Generation of extended filaments of femtosecond pulses in air by use of a single-step phase plate, Opt. Lett., 34, 3752 (2009)       

[20] Y. Zhang, Y. Chen, S. Xu, H. Lian, M. Wang, W. Liu*, S. L. Chin, and G. Mu, Portraying polarization state of terahertz pulse generated by a two-color laser field in air, Opt. Lett., 34, 2841 (2009)

[21] Y. Chen, C. Marceau, W. Liu*, Z.-D. Sun, Y. Zhang, F. Théberge, M. Châteauneuf, J. Dubois and S. L. Chin, Elliptically polarized terahertz emission in the forward direction of a femtosecond laser filament in air, Appl. Phys. Lett., 93, 231116 (2008) 

[22] Y. Zhang, Y. Chen, C. Marceau, W. Liu*, Z.-D. Sun, S. Xu, F. Théberge, M. Châteauneuf, J. Dubois, and S. L. Chin, Non-radially polarized THz pulse emitted from femtosecond laser filament in air, Opt. Express, 16, 15483 (2008)

[23] Z.J. Xu, W. Liu*, N. Zhang, M.W. Wang and X.N. Zhu, Effect of intensity clamping on laser ablation by intense femtosecond laser pulses, Opt. Express, 16,3604 (2008)

[24] W. Liu*, H.L. Xu, G. Méjean, Y. Kamali, J.-F. Daigle, A. Azarm, P.T. Simard, P. Mathieu, G. Roy and S.L. Chin, Efficient non-gated remote-filament induced breakdown spectroscopy of metallic sample, Spectrochimica Acta, B, 62, 76 (2007)

[25] W. Liu*, F. Théberge, E. Arévalo, J.-F. Gravel, A. Becker and S.L. Chin, Experiment and simulations on the energy reservoir effect in femtosecond light filaments, Opt. Lett., 30, 2602 (2005)

[26] W. Liu* and S.L. Chin, Direct measurement of the critical power of femtosecond Ti:sapphire laser pulse in air, Opt. Express, 13, 5750 (2005)

[27] W. Liu*, S.A. Hosseini, Q. Luo, B. Ferland, S.L. Chin, O.G. Kosareva, N.A. Panov and V.P. Kandidov, Experimental observation and simulations of the self-action of white light laser pulse propagating in air, N. J. Phys., 6, 6 (2004)

[28] W. Liu*, S. Petit, A. Becker, N. Aközbek, C.M. Bowden and S.L. Chin, Intensity clamping of a femtosecond laser pulse in condensed matter, Opt. Commun., 202, 189 (2002)

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