General

Prof. Dr. Tie-Jun Wang


State Key Laboratory of High Field Laser Physics and CAS Center for Excellence in Ultra-Intense Laser Science, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences

Center of Materials Science and Optoelectronics Engineering, University of Chinese Academy of Sciences


Email: tiejunwang@siom.ac.cn
Telephone: 021-69918439
Address: No. 390 Qinghe Road, Jiading District, Shanghai, China
Postcode: 201800

Research Areas

Ultrafast intense laser science
Femtosecond laser filamentation: fundamental and applications

Laser based weather modification: Lightning control etc.
Ultrafast laser (filament) induced breakdown spectroscopy
THz Science and technology

Education

09/2002—07/2007 College of Physics, Jilin Univ. Jilin Province, P. R. China
Graduate studies for Ph.D degree
Supervisor: Prof. Jin-Yue Gao
Major: Optics
Degree: PhD in Optics (July, 2007)
Thesis: Studies on tunable mid-infrared lasers

09/1998—07/2002: College of Physics, Jilin Univ. P. R. China
Supervisor: Prof. Jin-Yue Gao
Major: Optical Communication and Technology
Degree: Bachelor of Science in Physics (July, 2002)
Thesis: The measurement of nanometer-sized ultrafine particle with photon correlation spectroscopy

Experience

   
Work Experience

Work experience:

06/2013--now    Research fellow in State Key Laboratory of High Field Laser Physics at Shanghai Institute of Optics and Fine Mechanics (SIOM), Chinese Academy of Science, on ultrafast intense laser science


05/2021-now     Distinguished Professor at ShanghaiTech University

06/2022-now     Adjunct Professor at Tongji University


10/2008--06/2013 Postdoctoral researcher and research associate supervised by Prof. See Leang Chin in Ultrafast Intense Laser Science Lab at Center for Optics, Photonics and Laser (COPL) in Laval University, Canada.
Research on ultrafast intense laser science: filamentation and application; Filamentation THz pulse generation.

08/2007--10/2008 Postdoctoral researcher supervised by Prof. Ferenc Krausz (Nobel Prize Winner in Physics 2023) in the laboratory of attosecond and high-field physics at Max-Planck-Institute of Quantum Optics, Germany.
Research on Broadband short-pulse OPA, Idler-based phase-stable seed generation for petawatt-field synthesizer (PFS), Development and frequency doubling of a ps Yb:YAG pump laser for PFS.

09/2002--07/2007 Research assistant of Prof. Jin-Yue Gao in Jilin University. Organize the group meeting once a week; participate some works on quantum optics, laser technologies, waveguide fabricating and optical communication technologies in the lab.

02/2004--05/2005 Research assistant on solid-state lasers and their applications in North
China Research Institute of Electro-optics (NCRIEO), Beijing.
Q-switching and mode-locking of Nd:YAG laser, active and passive Q-switching of Er:Cr:YSGG, Er:YAG laser were investigated skillfully. Measurement of damage level for optics; Autocorrelation measurement for ultrashort laser pulses and some industry applications using solid-state lasers, for example, laser engraving, laser marking.

Professional Services:

  • Member of National Science and Technology Experts, Ministry of Science and Technology of the People’s Republic of China (2015-) 
  •  Quality Reviewer at International Publishing Center, China Academic Journals (CD Edition) Electronic Publishing House 
  • Member of Shanghai Science and Technology Experts (2014-) 
  • Editorial board member for Journal of Optical Engineering and Applications, THE WORLD ACADEMIC PUBLISHING CO., LIMITED (2013-2014) 
  •  Referee for: Applied Physics Letters, New Journal of Physics, Optics Letters, Optics Express,Journal of Optical Society of American B: Optical Physics, IEEE Journal of Quantum Electronics, Journal of Physics B: atomic, molecular and optical physics, Journal of Physics D: applied physics, Europhysics Letters, Journal of Optics, Journal of Alloys and Compounds, Sensors, Frontiers of Optoelectronics, Chinese Optics Letters, Chinese Physics Letters, Acta Physica Sinica, Science China: Physics, Mechanics & Astronomy, High Power Laser: Science and Engineering, Photonic Research, Plasma Physics and Controlled Fusion

Professional Services

  • Topical Advisory Panel Member of Photonics (2021-)

  • Member of National Science and Technology Experts, Ministry of Science and Technology of the People’s Republic of China (2015-) 
  •  Quality Reviewer at International Publishing Center, China Academic Journals (CD Edition) Electronic Publishing House 
  • Member of Shanghai Science and Technology Experts (2014-) 
  • Editorial board member for Journal of Optical Engineering and Applications, THE WORLD ACADEMIC PUBLISHING CO., LIMITED (2013-2014) 
  •  Referee for Scietific Journals: 

                     Physical Review Letters, Laser & Photonics Review, Photonics Research, Scientific Reports, Applied Physics Letters, New Journal of Physics, Optics Letters, Optics Express,Journal of Optical Society of American B: Optical Physics, IEEE Journal of Quantum Electronics, Journal of Physics B: atomic, molecular and optical physics, Journal of Physics D: applied physics, Europhysics Letters, Journal of Optics, Journal of Alloys and Compounds, Sensors, Frontiers of Optoelectronics, Chinese Optics Letters, Chinese Physics Letters, Acta Physica Sinica, Science China: Physics, Mechanics & Astronomy, High Power Laser: Science and Engineering, Photonic Research, Plasma Physics and Controlled Fusion

  • Evaluation expert for:             

             National Key Research and Development Program of China

             China Postdoctoral Science Foundation

             PhD thesis Evaluation-International Islamic University, Islamabad, Pakistan

             Shanghai Science and Technology Programs

             etc.

Honors & Distinctions

2014: Included by 《Who’s who in the world 2015》 with VIP Number of 36860691

2014: Awarded by 100 Talents Program of Chinese Academy of Sciences, China

2014: Awarded by Shanghai Pujiang Talent Program, Shanghai Science and Technology Committee, China

2013: Awarded by 100 Talents Program of Chinese Academy of Sciences in Shanghai Institute of Optics and Fine Mechanics, China

2010: 1st ISUILS Award for Young Researchers (Sponsored by Japan Intense Light Field Science Society (JILS), ISUILS, International Symposium on Ultrafast Intense Laser Science);

2009: Nominations of National Top 100 Outstanding Doctor Dissertations, China;
Outstanding Doctor Dissertations of Jilin Province, China;
First Rank of Outstanding Doctor Dissertations of Jilin University, China;

2007- 2008: Max Planck Society Postdoctoral Fellowships, Germany;
2007: Outstanding Graduated Students of Jilin University, China;
Second Rank of 21th Distinguished Scholar Cup Seminar of Jilin University for
graduate student, China;
2006: Qiu Shi Scholarship for Postgraduates by Hong Kong Qiu Shi Science and
Technology Foundation, Hong Kong, China;
First Rank of 20th Distinguished Scholar Cup Seminar of Jilin University for
graduate student;
2005- 2006: First Rank Graduate Scholarship of Jilin University;
2003- 2004: First Rank Graduate Scholarship of Jilin University;
2001- 2002: Second Rank of Outstanding Student Scholarship of Jilin University;
2000- 2001: Second Rank of Outstanding Student Scholarship of Jilin University;
DONGRONG Scholarship Award;
1999- 2000: Second Rank of Outstanding Student Scholarship of Jilin University;
DONGRONG Scholarship Award;
1998- 1999: Third Rank of Outstanding Student Scholarship of Jilin University;

Publications

Review papers


6. 程俊皓,胡理想*王铁军,罗剑,张芳沛,余同普*,飞秒激光诱导多丝产生与调控研究进展,中国激光,501400001 (2023)(综述文章);Cheng Junhao, Hu Lixiang*, Wang Tiejun, Luo Jian, Zhang Fangpei, Yu Tongpu*, Research Progress of Femtosecond Laser-induced Multifilament Generation and Regulation, Chinese Journal of Lasers, 501400001 (2023) (Review paper)

 

5. 王铁军*,陈娜,郭豪, 刘尧香,冷雨欣,李儒新,飞秒强激光大气遥感新技术的原理和研究进展,激光与光电子进展, 59, 0700001 (2022)(特邀综述,封面文章);Tie-Jun Wang*, Na Chen, Hao Guo, Yaoxiang Liu, Yuxin Leng and Ruxin Li, “Principle and Research Progress of Atmospheric Remote Sensing by Intense Femtosecond Lasers”, Laser & Optoelectronics Progress 59, 0700001 (2022). (Invited Review, Cover paper).

 

4. 王铁军*,徐淮良*,激光大气成丝中的非线性光频转换,物理学进展,38,82 2018),封面文章;Tie-Jun Wang*, and Huailiang Xu*, “Nonlinear frequency conversion in laser filamentation in air”, Progress in Physics, 38, 82 (2018). (Invited Review in Chinese, Cover paper)

 

3. 陈娜,刘尧香,杜盛喆,阎晓娜,王铁军*,李儒新,纳秒、飞秒激光诱导光谱技术的应用研究进展,激光与光电子进展, 53, 050003 (2016)Chen Na, Liu Yaoxiang, Du Shengzhe, Yan Xiaona, Wang Tiejun*, and Li Ruxin, “Research progress in applications of nanosecond and femtosecond laser-induced breakdown spectroscopy”, Laser & Optoelectronics Progress 53, 050003 (2016). (in Chinese)

 

2.    Tie-Jun Wang*, Shuai Yuan, Yanping Chen, and See Leang Chin, “Intense broadband THz generation from femtosecond laser filamentation,” Chinese Optics Letters, 11, 011401 (2013).

 

1.  S. L. Chin, T. J. Wang, C. Marceau, J. Wu, J. S. Liu, O. Kosareva, N. Panov, Y. P. Chen, J-F Daigle, S. Yuan, A. Azarm, W. W. Liu, T. Seideman, H. P. Zeng, M. Richardson, R. Li, Z. Z. Xu, “Advances in intense femtosecond laser filamentation in air,” Laser Physics 22, 1 (2012); Virtual Journal of Laser, Sep. 05 (2011).



Book Chapters

 

2. Tie-Jun Wang, Shuai Yuan, Jingjing Ju, Heping Zeng, Ruxin Li, Zhizhan Xu, and See Leang Chin, “Lasing actions inside a femtosecond laser filament in air”, in “Laser Filamentation” CRM Series in Mathematical Physics, Andre D. Bandrauk, Emmanuel Lorin, and Jerome V. Moloney (Eds.), Springer 2015, Chapter 5, p. 121-146.

1.    S. L. Chin, A. Azarm, H. L. Xu, T.-J. Wang, M. Sharifi, A. Talebpour, “Experiments in population trapping in atoms and molecules by an intense short laser pulse,” in “Progress in Ultrafast Intense Laser Science VIII,” Springer Series in Chemical Physics, Vol. 103, Yamanouchi Kaoru, Nisoli Mauro, and Hill III Wendell T. (Eds.), Springer 2012. Chapter 4, p. 79-95.


Papers

97. Jiejuan Zhang, Fusheng Zhang, Tie-Jun Wang*, Xianwang Li, Hao Qin, Xiangyu Zhang, Yuefeng Leng, Jianshan Yang, and Shaoming Dong*, Femtosecond laser filament ablated grooves of SiC ceramic matrix composite and its grooving monitoring by plasma fluorescence, Ceramics International 50, 16474-16480 (2024). 


96. Yaoxiang Liu, Fukang Yin, Tie-Jun Wang*, Yuxin Leng*, Ruxin Li*, Zhizhan Xu, and See Leang Chin, Stable, intense supercontinuum light generation at 1kHz by electric field assisted femtosecond laser filamentation in air, Light: Science and Applications, 13, 42 (2024).


95. See Leang Chin*, Xueliang Guo*, Harmut Schroeder, Huanbin Xu, Tie-Jun Wang*, Ruxin Li, and Weiwei Liu, Lightning in a forest (wild) fire: mechanism at the molecular level, Atmospheric and Climate Sciences 14, 128-135 (2024).


94. Fukang Yin, Tie-Jun Wang*, Yaoxiang Liu, Juan Long, Yingxia Wei, Bin Zhu, Kainan Zhou, and Yuxin Leng, Pulse repetition rate effect on the plasma inside femtosecond laser filament in air, Chinese Optics Letters 22, 013201 (2024)

 

93. See Leang Chin*, Xueliang Guo*, Harmut Schroeder*, Di Song*, Andong Xia*, Fan’ao Kong*, Huanbin Xu*, Tiejun Wang*, and Ruxin Li*, Charging mechanism of lightning at the molecular level, Atmospheric and Climate Sciences 13, 415-430 (2023).


92. Fukang Yin, Juan Long, Yaoxiang Liu*, Yingxia Wei, Bin Zhu, Kainan Zhou, Tie-Jun Wang*, Yuxin Leng, and Ruxin Li, Pulse repetition-rate effect on the intensity inside a femtosecond laser filament in air, High Power Laser Science and Engineering 11, e46 (2023)

 

91. Zhehao Pei, Weijiang Chen*, Xing Fan, Jianwei Gu, Shengxin Huang, Xiaosong Liu, Zhong Fu, Bin Du, Tiejun Wang, Rui Zhang, and Qiaogen Zhang, The contribution of femtosecond laser filaments to positive and negative breakdown discharge in a long air gag, Physics of Plasmas 30, 043511 (2023)

 

90. Xin Chen, Ivan M. Kislyakov*, Tiejun Wang, Yafeng Xie, Yan Wang, Long Zhang & Jun Wang*, Photoacoustic 2D actuator via femtosecond pulsed laser action on van der Waals interfaces, Nature Communications 14, 2135 (2023).

 

89. Yingxia Wei, Tie-Jun Wang*, Juan Long, Fukang Yin, Xinyi Ding, Bin Zhu, Kainan Zhou, Jianhui Bin, and Yuxin Leng, Toward 3D imaging of femtosecond laser filament in air by a CCD within a single exposure, Optics Express 31(4), 6938 (2023)

 

88. Tie-Jun Wang, Mehdi Ebrahim, Ivi Afxenti, Dionysis Adamou, Adetunmise Dada, Ruxin Li, Yuxin Leng, Jean-Claude Diels, Daniele Faccio, Arnaud Couairon, Carles Milián, and Matteo Clerici*, Cumulative effects in 100 kHz repetition-rate laser-induced plasma filaments in air, Advanced Photonics Research 4, 2200338 (2023)

 

87. 程俊皓,胡理想*王铁军,罗剑,张芳沛,余同普*,飞秒激光诱导多丝产生与调控研究进展,中国激光, 50, 1400001 (2023)(综述文章);Cheng Junhao, Hu Lixiang*, Wang Tiejun, Luo Jian, Zhang Fangpei, Yu Tongpu*, Research Progress of Femtosecond Laser-induced Multifilament Generation and Regulation, Chinese Journal of Lasers, 50, 1400001 (2023) (Review paper)

 

86. 郑恒毅,尹富康,王铁军*,刘尧香,魏迎霞,朱斌,周凯南,冷雨欣,飞秒激光成丝的衍射分析方法,中国激光, 49, 2408001 (2022)Zheng Hengyi, Yin Fukang, Wang Tiejun*, Liu Yaoxiang, Wei Yingxia, Zhu Bin, Zhou Kainan, Leng Yuxin, Diffraction analysis of femtosecond laser filaments, Chinese Journal of Lasers, 49, 2408001 (2022)

 

85. Ying Xu, Yonggen Xu*, Tiejun Wang, Evolution properties of a partially coherent twisted Laguerre–Gaussian pulsed beam propagating through anisotropic atmospheric turbulence, Photonics 9, 707 (2022).

 

84. 王依海,龙娟,刘呈普*王铁军*,高欣*,静电场调制飞秒激光气体微等离子体的太赫兹辐射增强,中国激光49,1114001 (2022); Wang Yihai, Long Juan, Liu Chengpu*, Wang Tiejun*, Gao Xin*, Terahertz Radiation Enhancementfrom Femtosecond LaserIonized Gas Micro-Plasma Under Static Electric Field, Chinese Journal of Lasers, 49, 1114001 (2022).

 

83. Hengyi Zheng, Fukang Yin, Tie-Jun Wang*, Yaoxiang Liu, Yingxia Wei, Bin Zhu, Kainan Zhou, and Yuxin Leng, “Time-resolved measurements of electron density and plasma diameter of 1 kHz femtosecond laser filament in air”, Chinese Optics Letters 20, 093201 (2022).

 

82. 王铁军*,陈娜,郭豪, 刘尧香,冷雨欣,李儒新,飞秒强激光大气遥感新技术的原理和研究进展,激光与光电子进展, 59, 0700001 (2022) (特邀综述,封面文章); Wang Tiejun*, Chen Na, Guo Hao, Liu Yaoxiang, Leng Yuxin, Li Ruxin, Principle and Research Progress of Atmospheric Remote Sensing by Intense Femtosecond Lasers, Chinese Journal of Lasers, 59, 0700001 (2022).


81. Hao Guo, Xiang Dong, Tie-Jun Wang*, Xuan Zhang, Na Chen, Fukang Yin, Yihai Wang, Lingang Zhang, Haiyi Sun, Jun Liu, Jiansheng Liu, Baifei Shen, Olga Kosareva, Yuxin Leng, and Ruxin Li, “Polarization dependent clamping intensity inside a femtosecond filament in air”, Chinese Optics Letters 19, 103201 (2021).


80. Yaoxiang Liu, Tie-Jun Wang*, Na Chen, Hao Guo, Haiyi Sun, Lu Zhang, Zheng Qi, Yuxin Leng, Zhanshan Wang, and Ruxin Li, “Simultaneous generation of controllable double white light lasers by focusing an intense femtosecond laser pulse in air”, Chinese Optics Letters 18, 121402 (2020).

 

79. Na Chen, Tie-Jun Wang*, Zhongbin Zhu, Hao Guo, Yaoxiang Liu, Fukang Yin, Haiyi Sun, Yuxin Leng, and Ruxin Li, “Laser ellipticitty-dependent supercontinuum generation by femtosecond laser filamentation in air”, Optics Letters 45, 4444 (2020). Highlighted in Chinese Academy of Sciences as “Research news” titled by “Scientists generate laser ellipticitty sensitive supercontinuum via femtosecond laser filamentation in air”.

 

78. Hao Guo, Tie-Jun Wang*, Xuan Zhang, Chengpu Liu, Na Chen, Yaoxiang Liu, Haiyi Sun, Baifei Shen, Yunxia Jin, Yuxin Leng, and Ruxin Li, “Direct measurement of radial fluence distribution inside a femtosecond laser filament core”, Optics Express 28, 15529 (2020). Highlighted in Laser Focus World as “Newsbreaks” by “Toothed iris diaphragm helps control radial intensity inside a femtosecond-laser filament core”; Highlighted in Chinese Academy of Sciences as “Research news” titled by “Scientists realize direct measurement and control of radial fluence inside a femtosecond laser filament core”.

 

77. Tie-Jun Wang*, Jianhao Zhang, Zhongbin Zhu, Yaoxiang Liu, Na Chen, Hao Guo, Haiyi Sun, Yuxin Leng, See Leang Chin, and Ruxin Li*, “Femtosecond laser filament guided negative coronas”, AIP Advances 10, 035128 (2020).

 

76. S. L. Chin, Xueliang Guo*, Huanbin Xu, Fanao Kong, Andong Xia, Hongmei Zhao, Di Song, Tie-Jun Wang*, Gengyu Li, Sheng-Zhe Du, Jingjing Ju, Haiyi Sun, Jiansheng Liu, Ruxin Li*, and Zhizhan Xu, “An attempt to explain rain gush formation: the ionic wind approach”, Plasma Research Express 1, 035013 (2019).

 

75. Xuan Zhang, Tie-Jun Wang*, Hao Guo, Haiyi Sun, Ruxin Li, “The pulse duration dependent clamping intensity inside the femtosecond laser filament in air”, Chinese Journal of Lasers 46, 0901005 (2019).

 

74. Zhen Zhang, N. Panov, V. Andreeva, Zhelin Zhang, A. Slepkov, D. Shipilo, M. D. Thomson, Tie-Jun Wang, I. Babushkin, A. Demircan, U. Morgner, Yanping Chen, O. Kosareva*, and A. Savel’ev, “Optimum chirp for efficient terahertz generation from two-color femtosecond pulses in air”, Applied Physics Letters 113, 241103 (2018).

 

73. O. Kosareva*, N. Panov, D. Shipilo, V. Andreeva, T.-J. Wang, Y. Chen, W. Liu, A. Savel’ev, and A. Shkurinov, “Terahertz generation from single and multiple filaments in air”, EPJ Web of Conferences 195, 030313 (2018).

 

72. Haiyi Sun, Yonghong Liu, Jiansheng Liu*, Zhengjun Sun*, Jingjing Ju, Xingkai Hu, Cheng Wang, Tiejun Wang, See Leang Chin, Ruxin Li, and Zhizhan Xu, “Femtosecond laser filament-assisted AgI-type pyrotechnic nucleant-induced water condensation in cloud chamber”, Optics Express 26, 29687 (2018). Research news in Newsroom of CAS “Amazing! Scientists creatively apply laser science in snowfall”.

 

71. Shengzhe Du, Tie-Jun Wang*, Zhongbin Zhu, Yaoxiang Liu, Na Chen,Jianhao Zhang, Hao Guo, Haiyi Sun, Jingjing Ju, Cheng Wang, Jiansheng Liu*, See Leang Chin, Ruxin Li, and Zhizhan Xu*, “Laser guided ionic wind”, Scientific Reports 8, 13511 (2018). Research news in Newsroom of CAS “Scientists Generate Ionic Wind at a Distance with Laser”.

 

70. Jianhao Zhang, Tiejun Wang*, Zhongbin Zhu, Yaoxiang Liu, Na Chen, and Ruxin Li*, “Femtosecond laser guided negative corona”, Chinese Journal of Lasers 45, 1001002 (2018). (in Chinese)

 

69. Zhongbin Zhu, Tie-Jun Wang*, Yaoxiang Liu, Na Chen, Huifang Zhang, Haiyi Sun, Hao Guo, Jianhao Zhang, Xuan Zhang, Gengyu Li, Candong Liu, Zhinan Zeng, Jiansheng Liu, See Leang Chin, Ruxin Li, and Zhizhan Xu, “Polarization-depdendent femtosecond laser filamentation in air”, Chinese Optics Letters, 16, 073201 (2018).

 

68. Haiyi Sun, Yonghong Liu, Jiansheng Liu*, jingjing Ju, Cheng Wang, Xingkai Hu, Zhongbin Zhu, Yaoxiang Liu, Tiejun Wang, See Leang Chin, Ruxin Li, and Zhizhan Xu, “Sub-picosecond chirped laser pulse-induced airflow and water condensation in a cloud chamber”, Chinese Optics Letters, 16, 061403 (2018).

 

67. Tie-Jun Wang*, and Huailiang Xu*, “Nonlinear frequency conversion in laser filamentation in air”, Progress in Physics, 38, 82 (2018). (Review paper in Chinese)

 

66. Hao Guo, Zhongbin Zhu, Tiejun Wang*, Na Chen, Yaoxiang Liu, Jianhao Zhang, Haiyi Sun, Jiansheng Liu, and Ruxin Li, “Polarization-gateed filament-induced remote breakdown spectroscopy”, Chinese Optics Letters, 16, 033201 (2018).

 

65Jingjing Ju, Haiyi Sun, Xingkai Hu, Yonghong Liu, Yaoxiang Liu, Jingwei Wang, Cheng Wang, Tie-Jun Wang, Xueliang Guo, Jiansheng Liu*, See Leang Chin, Ruxin Li*, and Zhizhan Xu, “Temporal evolution of condensation and precipitation induced by a 22-TW laser”, Optics Express 26, 2785 (2018).

 

64. Jingjing Ju#, Tie-Jun Wang#, Ruxin Li*, Shengzhe Du, Haiyi Sun, Yonghong Liu, Ye Tian, Yafeng Bai, Yaoxiang Liu, Na Chen, Jingwei Wang, Cheng Wang, Jiansheng Liu, S. L. Chin and Zhizhan Xu*, “Corona discharge induced snow formation in a cloud chamber”, Scientific Reports 7, 11749 (2017).

 

63. Shengzhe Du, Zhongbin Zhu, Yaoxiang Liu, Tie-Jun Wang*, and Ruxin Li, “Optimization design scheme of femtosecond laser induced corona discharge”, Chinese Journal of Lasers 44, 601009 (2017). (in Chinese)

 

62. Tie-Jun Wang*, Jingjing Ju, Yaoxiang Liu, Ruxin Li, Zhizhan Xu, and See Leang Chin, “Waveform control of enhanced THz radiation from femtosecond laser filament in air”, Applied Physics Letters 110, 221102 (2017).

 

61. Na Chen, Yaoxiang Liu, Tiejun Wang*, Zhongbin Zhu, Haiyi Sun, Xiaona Yan, Yunhua Xia, Jinhua Xia, Juan Du, Jiansheng Liu, and Yuxin Leng, “Harmonic generation at air-soil interface by femtosecond laser filament”, Chinses Optics Letters 15, 061902 (2017).

 

60. Yaoxiang Liu, Tiejun Wang*, Na Chen, Shengzhe Du, Jingjing Ju, Haiyi Sun, Cheng Wang, Jiansheng Liu*, Haihe Lu, See Leang Chin, Ruxin Li*, Zhizhan Xu, and Zhanshan Wang, “Probing the effective length of plasma inside a filament”, Optics Express 25, 11078 (2017).

 

59. Haiyi Sun, Yonghong Liu, Jingjing Ju, Ye Tian, Yafeng Bai, Yaoxiang Liu, Shengzhe Du, Cheng Wang, Tiejun Wang, Jiansheng Liu*, See Leang Chin, Ruxin Li*, and Zhizhan Xu, “Picosecond laser-induced water condensation in a cloud chamber”, Optics Express 24, 20494 (2016).


58. Jingjing Ju, Jiansheng Liu, Hong Liang, Yu Chen, Haiyi Sun, Yonghong Liu, Jingwei Wang, Cheng Wang, Tiejun Wang, Ruxin Li, Zhizhan Xu* & See Leang Chin*, “Femtosecond laser filament induced condensation and precipitation in a cloud chamber”, Scientific Reports, 6, 25417 (2016).

 

57. Chen Na, Liu Yaoxiang, Du Shengzhe, Yan Xiaona, Wang Tiejun*, and Li Ruxin, “Research progress in applications of nanosecond and femtosecond laser-induced breakdown spectroscopy”, Laser & Optoelectronics Progress, 53, 050003 (2016). (in Chinese)

 

56. Yonghong Liu, Haiyi Sun*, Jiansheng Liu*, Hong Liang, Jingjing Ju, Tiejun Wang, Ye Tian, Cheng Wang, Yi Liu, See Leang Chin, and Ruxin Li, “Laser-filamentation-induced water condensation and snow formation in a cloud chamber filled with different ambient gases”, Optics Express, 24, 7364 (2016).

 

55. Yingxia Wei, Yaoxiang Liu, Tie-Jun Wang*, Na Chen, Jingjing Ju, Yonghong Liu, Haiyi Sun, Cheng Wang, Jiansheng Liu, Haihe Lu, See Leang Chin, and Ruxin Li, “Spectroscopic analysis of high electric field enhanced ionization in laser filaments in air for corona guiding”, High Power Laser Science and Engineering, 4, e8 (2016).

 

54. Yonghong Liu, Haiyi Sun*, Jingjing Ju, Ye Tian, Yafeng Bai, Cheng Wang, Tiejun Wang, Jiansheng Liu*, See Leang Chin, and Ruxin Li, “Vortices formation induced by femtosecond laser filamentation in a cloud chamber filled with air and helium”, Chinese Optics Letters 14, 031401 (2016).

 

53. Tie-Jun Wang*, Yingxia Wei, Yaoxiang Liu, Na Chen, Yonghong Liu, Jingjing Ju, Haiyi Sun, Cheng Wang, Haihe Lu, Jiansheng Liu*, See Leang Chin, Ruxin Li*, and Zhizhan Xu, “Direct observation of laser guided corona discharges”, Scientific Reports 5,18681 (2015).

 

52. Haiyi Sun, Hong Liang, Yonghong Liu, Jingjing Ju, Yingxia Wei, Cheng Wang, Tie-Jun Wang, Jiansheng Liu*, See Leang Chin, Ruxin Li*, and Zhizhan Xu, "Differently patterned airflows induced by 1-kHz femtosecond laser filaments in a cloud chamber", Applied Physics B 121, 155-169 (2015).


51. Shuai Yuan, Tie-Jun Wang*, Haifeng Pan, Lijuan Zheng, See Leang Chin, and Heping Zeng*, “Pulse polarization evolution and control in the wake of molecular alignment inside a filament”, Optics Express 23, 5582 (2015).

50. Jingjing Ju, Haiyi Sun, Aravindan Sridharan, Tie-Jun Wang, Jingwei Wang, Cheng Wang, Jiansheng Liu, Ruxin Li, Zhizhan Xu, and See Leang Chin, “Laser induced super-saturation and snow formation in a sub-saturated cloud chamber”, Applied Physics B 117, 1001 (2014).

49. Tie-Jun Wang,* Jingjing Ju, Yingxia Wei, Ruxin Li, Zhizhan Xu, and See Leang Chin, “Longitudinally resolved measurement of plasma density along femtosecond laser filament via terahertz spectroscopy,” Applied Physics Letters 105, 051010 (2014)

48. Shuai Yuan, Tie-Jun Wang, Peifen Lu, See Leang Chin, and Heping Zeng, “Humidity measurement in air using filament-induced nitrogen monohydride fluorescence spectroscopy,” Applied Physics Letters 104, 091113 (2014).

47. Jingjing Ju, Haiyi Sun, Aravindan Sridharan, Tie-Jun Wang, Cheng Wang, Jiansheng Liu, Ruxin Li, Zhizhan Xu, and See Leang Chin, “Laser filament-induced snow formation in a sub-saturated zone in a cloud chamber: Experimental and theoretical study,” Physical Review E 88, 062803 (2013) ); Virtual Journal of Laser, December 03 (2013).

46. Tie-Jun Wang,* Jean-Francois Daigle, Jingjing Ju, Shuai Yuan, Ruxin Li, and See Leang Chin, “Forward lasing action at multiple wavelengths seeded by white light from a femtosecond laser filament in air,” Physical Review A 88, 053429 (2013); Virtual Journal of Laser, November 27 (2013).

45. Aravindan Sridharan, Tie-Jun Wang, Alexandre Grégoire, Jingjing Ju, Jiansheng Liu, Ruxin Li, Zhizhan Xu, Denis Boudreau, and See Leang Chin, “Laser-filament-induced condensation in a cloud chamber simulating natural atmospheric conditions,” Laser Physics Letters 10, 125301 (2013).

44. Tie-Jun Wang,* Jingjing Ju, Jean-Francois Daigle, Shuai Yuan, Ruxin Li, and See Leang Chin, “Self-seeded forward lasing action from a femtosecond Ti:sapphire laser filament in air,” Laser Physics Letters 10, 125401 (2013)

43. Shuai Yuan, Tie-Jun Wang, Yoshiaki Teranishi, Aravindan, Sheng Hsien Lin, Heping Zeng and See Leang Chin, “Lasing action in water vapor induced by ultra-fast laser filamentation,” Applied Physics Letters, 102, 224102 (2013); Virtual Journal of Laser, June 03 (2013).

42. Tie-Jun Wang,* Shuai Yuan, Yanping Chen, and See Leang Chin, “Intense broadband THz generation from femtosecond laser filamentation,” Chinese Optics Letters, 11, 011401 (2013) (Invited review paper in Special issue in celebration of 10th anniversary of Chinese Optics Letters); Virtual Journal of Laser, Dec. 31 (2012).

41. S. Hosseini, O. Kosareva, N. Panov, V. P. Kandidov, A. Azarm, J.-F. Daigle, A. B. Savel’ev, T.-J. Wang, and S. L. Chin,   “Femtosecond laser filament in different air pressures simulating vertical propagation up to 10 km,” Laser Physics Letters, 9, 868-874 (2012). 

40. Bin Zeng, Tie-Jun Wang,* Sima Hosseini, Ya Cheng, Zhizhan Xu, Weiwei Liu, and See Leang Chin, “Enhancement of fluorescence signal in remote filament-induced breakdown spectroscopy with spatio-temporally chirped pulses,” Journal of the Optical Society of America B 29, 3226 (2012) (corresponding author). 

39. Tie-Jun Wang,* Huailiang Xu, Jean-François Daigle, Aravindan Sridharan, Shuai Yuan, and See Leang Chin, “Water vapor concentration measurement in air using filament-induced fluorescence spectroscopy,” Optics Letters 37, 1706 (2012); Virtual Journal of Ultrafast Science, Volume 11, Issue 6, June 2012.

38. J.-F. Daigle, F. Théberge, M. Henriksson, T.-J. Wang, S. Yuan, M. Châteauneuf, J. Dubois, M. Piché, S. L. Chin, “Remote THz generation from two-color filamentation: Long distance dependence,” Optics Express, 20, 6825-6834 (2012); Virtual Journal of Laser, Mar. 12 (2012).

37.  S. L. Chin, T. J. Wang, C. Marceau, J. Wu, J. S. Liu, O. Kosareva, N. Panov, Y. P. Chen, J-F Daigle, S. Yuan, A. Azarm, W. W. Liu, T. Seideman, H. P. Zeng, M. Richardson, R. Li, Z. Z. Xu, “Advances in intense femtosecond laser filamentation in air,” Laser Physics 22, 1 (2012) (review paper); Virtual Journal of Laser, Sep. 05 (2011).

36.  J.-F. Daigle, T.-J. Wang, S. Hosseini, S. Yuan, G. Roy, and S. L. Chin, “Dynamic behavior of post-filamentation Raman pulses,” Applied Optics, 50, 6234 (2011); Virtual Journal of Ultrafast Science, Volume 11, Issue 1, January 2012.

35.  Shuai Yuan, Tie-Jun Wang, O. Kosareva, N. Panov, V. A. Makarov, Heping Zeng, and See Leang Chin, “Measurement of birefringence inside a filament,” Physical Review A 84, 013838 (2011); Virtual Journal of Ultrafast Science, Volume 10, Issue 8, August 2011.

34.  J.-F. Daigle, O. Kosareva, N. Panov, T.-J. Wang, S. Hosseini, S. Yuan, G. Roy and  S. L. Chin, “Formation and evolution of intense, post-filamentation, ionization-free low divergence beams,” Optics Communications 284, 3601 (2011); Virtual Journal of Laser, Apr. 14 (2011); Top 25 Hottest Articles in Optics Communications from April to June 2011.

33.  T.-J. Wang,* J.-F. Daigle, S. Yuan, F. Théberge, M. Châteauneuf, J. Dubois, G. Roy, and S. L. Chin, “Remote generation of high energy terahertz pulses from two-color femtosecond laser filamentation in air,” Physical Review A 83, 053801 (2011); Virtual Journal of Laser, May 2 (2011).

32.  Olga Kosareva, Jean-Francois Daigle, Nikolay Panov, Tiejun Wang, Sima Hosseini, Shuai Yuan, Gilles Roy, Vladimir Makarov, and See Leang Chin, “Arrest of self-focusing collapse in femtosecond air filaments: higher-order Kerr or plasma defocusing?” Optics Letters 36, 1035 (2011); Virtual Journal of Ultrafast Science, Volume 10, Issue 5, May 2011.

31.  Tie-Jun Wang,* Shuai Yuan, Zhen-Dong Sun, Claude Marceau, Yanping Chen, Francis Théberge, Marc Châteauneuf, Jacques Dubois, and See Leang Chin, “Molecular alignment control of terahertz emission from a two-color filament in air,” Laser Physics Letters, 8, 295-300 (2011).

30.  Tie-Jun Wang,* Claude Marceau, Shuai Yuan, Yanping Chen, Qiaoqiao Wang, Francis Théberge, Marc Châteauneuf, Jacques Dubois, and See Leang Chin, “External focusing effect on terahertz emission from a two-color femtosecond laser-induced filament in air,” Laser Physics Letters, 8, 57 (2011).

29.  Tie-Jun Wang,* Shuai Yuan, Yanping Chen, Jean-François Daigle, Claude Marceau, Francis Théberge, Marc Châteauneuf, Jacques Dubois, and See Leang Chin, “Toward remote high energy terahertz generation,” Applied Physics Letters, 97, 111108 (2010); Virtual Journal of Laser, Sep. 15 (2010);Virtual Journal of Ultrafast Science, Volume 9, Issue 10, October 2010.

28.  Olga Kosareva, Nikolay Panov, Vladimir Makarov, Igor Perezhogin, Claude Marceau, Yanping Chen, Shuai Yuan, Tie-Jun Wang, Heping Zeng, Andrey Savel’ev, and See Leang Chin, “Polarization rotation due to femtosecond filamentation in an atomic gas,” Optics Letters, 35, 2904 (2010); Virtual Journal of Ultrafast Science, Volume 9, Issue 12, December 2010.

27.  J.-F. Daigle, A. Jaroń-Becker, S. Hosseini, T.-J. Wang, Y. Kamali, G. Roy, A. Becker, S. L. Chin, “Intensity clamping measurement of laser filaments in air at 400 nm and 800 nm,” Physical Review A, 82, 023405 (2010); Virtual Journal of Laser, Aug. 04 (2010); Virtual Journal of Ultrafast Science, Volume 9, Issue 9, September 2010.

26.  Tie-Jun Wang,* Claude Marceau, Yanping Chen, Shuai Yuan, Francis Théberge, Marc Châteauneuf, Jacques Dubois, and See Leang Chin, “THz emission from a dc-biased two-color femtosecond laser-induced filament in air,” Applied Physics Letters, 96, 211113 (2010); Virtual Journal of Laser, May 27 (2010); Virtual Journal of Ultrafast Science, Volume 9, Issue 6, June 2010.

25.  T.-J. Wang,* J.-F. Daigle, Y. Chen, C. Marceau, F. Théberge, M. Châteauneuf, J. Dubois, and S.L. Chin, “High energy THz generation from meter-long two-color filaments in air,” Laser Physics Letters, 7, 517-521 (2010).

24.  Claude Marceau, S. Ramakrishna, Simon Génier, Tie-Jun Wang, Yanping Chen, Francis Théberge, Marc Châteauneuf, Jacques Dubois, Tamar Seideman, and See Leang Chin, “Femtosecond filament induced birefringence in argon and in air: ultrafast refractive index change,” Optics Communications, 283, 2732 (2010); Virtual Journal of Laser, Mar. 19 (2010)

23.  Tie-Jun Wang,* Zsuzsanna Major, Izhar Ahmad, Sergei Trushin, Ferenc Krausz, Stefan Karsch, “Ultra-broadband near-Infrared pulse generation by noncollinear OPA with angular dispersion compensation,” Applied Physics B: Laser and Optics, 100, 207-214 (2010); Virtual Journal of Laser, Nov. 2 (2009).

22.  Tie-Jun Wang,* Yanping Chen, Claude Marceau, Francis Théberge, Marc Châteauneuf, Jacques Dubois, and See Leang Chin, “High energy terahertz emission from two-color laser-induced filamentation in air with pump pulse duration control,” Applied Physics Letters, 95, 131108 (2009); Virtual Journal of Laser, Oct. 1 (2009); Virtual Journal of Ultrafast Science, Volume 8, Issue11, November 2009.

21.  Yanping Chen, Tie-Jun Wang, Claude Marceau, Francis Théberge, Marc Châteauneuf, Jacques Dubois, Olga Kosareva, and See Leang Chin, “Characterization of terahertz emission from a dc-biased filament in air,” Applied Physics Letters, 95, 101101 (2009); Top 20 most downloaded articles in September 2009.

20.  Zs. Major, S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, et al. “Basic concepts and current status of the Petawatt Field Synthesizer — a new approach to ultrahigh field generation,” Review of Laser Engineering, 37, 431 (2009).

19.  I. Ahmad, S.A. Trushin, Z. Major, C.Wandt, S. Klingebiel, T.-J. Wang, V. Pervak, A. Popp, M. Siebold, F. Krausz, S. Karsch, “Frontend light source for short-pulse pumped OPCPA system,” Applied Physics B: Lasers and Optics, 97, 529-536 (2009); Virtual Journal of Laser, Jun. 5 (2009).

18.  Tie-Jun Wang, Hong-Zhi Zhang, Feng-Guang Wu, Zhi-Shu Feng, Hai-Yan Zang, Zhi-Hui Kang, Yun Jiang, Jin-Yue Gao, “3~5?m AgGaS2 optical parametric oscillator with prism cavity, ” Laser Physics, 19, 377 (2009).

17.  M. Siebold, C. Wandt, S. Klingebiel, Zs. Major, S. Trushin, I. Ahmad, T.-J. Wang, J. Hein, F. Krausz, and S. Karsch, “High-energy diode-pumped Yb:YAG chirped pulse amplifier,” Proc. SPIE, 6998, 69980E (2008).

16.  Yun Jiang, Tie-Jun Wang, Hong-Zhi Zhang, Han Sun, Zhi-Hui Kang, Jin-Yue Gao, “Analysis of kinetics of a mechanical Q-switched CO2 laser,” Journal of Jilin University (science edition) (in Chinese) 46(1), 115-119 (2008).

15. Han Sun, Tie-Jun Wang, Hong-Zhi Zhang, Zhi-Hui Kang, Yun Jiang, Jin-Yue Gao, “Optimization analysis of AgGaS2 optical parametric oscillator at 3-5 microns,” Journal of Jilin University (science edition) (in Chinese) 45(4), 418-422 (2007).

14.  Y. Qu, Z.-H. Kang, T.-J. Wang, Y. Jiang, Y. M. Andreev, and J.-Y. Gao. “The detection of carbon monoxide by the second harmonic generation of CO2 laser”, Laser Physics Letters, 4(3), 238-241(2007).

13.  Tie-Jun Wang, Zhi-Hui Kang, Jin-Yue Gao, Y. M. Andreev, G. V. Lanskii, A. V. Shaiduko, “Nanosecond source of coherent radiation of 2.65-5.29 ?m spectral range for lidar systems” Atmospheric and Oceanic Optics, 20(8), 657-660 (2007).

12.  T.-J. Wang, J.-Y. Gao, Yu.M. Andreev, S.A. Bereznaya, T.N. Kopylova, Z.V. Korotchenko, G.V. Lanskii, T.D. Malinovskaya, A.N. Morozov, S.Yu. Sarkisov, “GaSe1-xSx solid solutions”, Russian Physics Journal, 50, 560-565 (2007).

11.  Tie-Jun Wang, Zhi-Hui Kang, Hong-Zhi Zhang, Zhi-Shu Feng, Feng-Guang Wu, Hai-Yan Zang, Yun Jiang, Jin-Yue Gao, Yury Andreev, Grigory Lanskii, Victor Atuchin, Oleg Parasyuk, “Sellmeier equations for orange and green colored HgGa2S4 single crystals” Applied Physics Letters, 90, 181913 (2007).

10.  Tie-Jun Wang, Zhi-Hui Kang, Hong-Zhi Zhang, Zhi-Shu Feng, Yun Jiang, Jin-Yue Gao, Yury M Andreev, Gregory V Lanskii and Anna V Shaiduko, “Model and experimental investigation of frequency conversion in AgGaGexS2(1+x), x=0 and 1, crystals”, Journal of Physics D: Applied Physics, 40, 1357-1362 (2007).

9.  Zhi-Hui Kang, Tie-Jun Wang, Hong-Zhi Zhang, Zhi-Shu Feng, Yun Jiang, Jin-Yue Gao, “Passive Q-switched Er:Cr:YSGG solid state laser,” Chinese Journal of Laser (in Chinese), 33, 1654 (2006).

8.  Qiongyi He, Tiejun Wang, Jinhui Wu and Jinyue Gao, “Effects of resonant absorption and inhomogeneous broadening on reflection and absorption spectra of optical lattices in diamond NV centers”, Optics Express, 14(24), 11727-11735 (2006); Virtual Journal of Ultrafast Science, Volume 6, Issue 2, February, 2006.

7.  He Qiong-Yi, Wang Tie-Jun, and Gao Jin-Yue, “High index of refraction via quantum interference in a three-level system of Er3+-doped yttrium aluminum garnet crystal,” Chinese Physics, 15(8), 1798 (2006).

6.  Qiong-Yi He, Jin-Hui Wu, Tie-Jun Wang, and Jin-Yue Gao, “Dynamic control of the photonic stop bands formed by a standing wave in inhomogeneous broadening solids,” Physical Review A. 73, 053813 (2006); Virtual Journal of Nanoscale Science & Technology , Vol.13, Issue 21, May 29, 2006.

5.  Tie-Jun Wang, Zhi-Hui Kang, Hong-Zhi Zhang, Qiong-Yi He, Yi Qu, Zhi-Shu Feng, Yun Jiang, Jin-Yue Gao, Yury M. Andreev, Gregory V. Lanskii, “Wide-tunable, high-energy AgGaS2 optical parametric oscillator,” Optics Express, 14(26), 13001-13006 (2006).

4.  T.-J. Wang, Q.-Y. He, J.-Y. Gao, Y. Jiang, Z.-H. Kang, H. Sun, L.-S. Yu, X.-F. Yuan, J. Wu, “Efficient Electrooptically Q-Switched Er:Cr:YSGG Laser Oscillator–Amplifier System with a Glan–Taylor Prism Polarizer,” Laser Physics, 16(12), 1605-1609 (2006).

3.  Tie-Jun Wang, Qiong-Yi He, Jin-Yue Gao, Han Sun, Zhi-Hui Kang, Yun Jiang, Ying-Fei Zhang, “Comparison between four-level model and six-temperature model on the description of a simple mechanical Q-switched CO2 laser,” Journal of Applied Physics, 100, 023121 (2006); Virtual Journal of Ultrafast Science, Volume 5, Issue 8, August 2006.

2.  T.-J. Wang, Q.-Y. He, J.-Y. Gao, Z.-H. Kang, Y. Jiang, and H. Sun, “Comparison of electrooptically Q-switched Er:Cr:YSGG lasers by two polarizers: Glan-Taylor prism and Brewster angle structure,” Laser Physics Letters 3(7), 349-352 (2006).

1.  T.-J. Wang, J.-Y. Gao, Q.-Y. He, T. Ma, Y. Jiang and Z.-H. Kang, “Analysis of the dynamics of a mechanical Q-switched CO2 laser: six-temperature model,” Journal of Applied Physics. 98. 073102. (2005)


Patents

4.      气体中产生的低抖动高强度超连续谱光源及其检测系统,王铁军,刘尧香,郭豪,陈娜,孙海轶,冷雨欣,李儒新,ZL 2020 1 1327305.5

 

3.      提升和测量高重频超快激光光丝指向稳定性的装置及方法,刘尧香,王铁军,郭豪,陈娜,孙海轶,冷雨欣,李儒新, ZL 2020 1 1327252.7

 

2.      飞秒激光成丝加载高压后诱导产生离子风的装置及方法,王铁军,杜盛喆,鞠晶晶,李儒新,孙海轶,刘尧香,陈娜,朱忠彬,ZL 2016 1 0420758.X

 

1.      电晕诱导水汽凝结的装置及其实施方法,杜盛喆,鞠晶晶,王铁军,李儒新,孙海轶,刘尧香,陈娜,朱忠彬,ZL 2016 1 0420897.2


Research Interests

Mainly focus on the physics and applications of intense femtosecond laser filamentation, 

                           Laser based weather modifications: artificial rain making, lightning control,

                           Laser plasmas based THz sources and application,

                           Ultrafast laser machining and fabrications

                           Ultrafast laser based remote sensing

                           etc.

Conferences


54. Tie-Jun Wang et al., Femtosecond laser-induced air plasma and its application on guiding high voltage discharge, The 3rd Symposium on Plasma and Energy Conversion & The 2nd China-Russia Symposium on Pulsed Discharge and Plasma, Wuhan, December 18-19, 2021. (Invited talk)

 

53. Tie-Jun Wang et al., Femtosecond laser filamentation for guiding discharges, The 10th International Symposium on Ultrafast Phenomena and Terahertz Waves (ISUPTW 2021), Chengdu, June 16-19, 2021. (Invited talk)


52. Tie-Jun Wang et al., New effects of fs laser filament guided discharges, Conference on High Intensity Laser and attosecond science in Israel (CHILI2019), Tel Aviv, Israel, December 9-11, 2019. (Invited talk)

 

51. Tie-Jun Wang et al., New effects of fs laser filament guided discharges, 2019 International Conference on Laser Interaction with Material and Applied Laser Technology, Shanghai, China, November 27-29, 2019. (Plenary talk)

 

50. Tie-Jun Wang et al., Polarization and chirp effects on the laser intensity inside an air filament, The 28th International Laser Physics Workshop (LPHYS’19), Gyeongju, South Korea, July 8-12, 2019. (Invited talk)

 

49. Tie-Jun Wang, et al., “External electric field control on THz emission from femtosecond air filament”, The 5th Chinese Annual Conference on THz Science and Technology, Shanghai, China, June 23-26, 2019. (Invited talk)

 

48. Tie-Jun Wang, et al., Stable white light laser by filamentation in air, The 10th Shanghai-Tokyo Advanced Research (STAR10) Symposium on Ultrafast Intense Laser Science, Chengdu, China, May 31-June 3, 2019. (Invited talk)

 

47. Tie-Jun Wang, et al., Laser guided ionic wind, Photonic Asia 2018, Beijing, China, October 11-13, 2018.

 

46. Tie-Jun Wang, et al., New effects of the interaction of femtosecond laser filament with high voltage coronas, The 27th International Laser Physics Workshop (LPHYS’18), Nottingham, UK, July 16-20, 2018. (Invited talk)

 

45. Tie-Jun Wang, et al., When laser filament meets with high voltage coronas: finding new possibility for applications, The 7th International Conference on Filamentation (COFIL2018), Geneva, Switzerland, June 25-29, 2018. (Invited talk)

 

44. Tie-Jun Wang, et al., New effects of the interaction of femtosecond laser filament with high voltage coronas, The 9th Shanghai-Tokyo Advanced Research (STAR9) Symposium on Ultrafast Intense Laser Science, Nasu, Japan, May 24-27, 2018. (Invited talk)

 

43. Tie-Jun Wang et al., “When laser filament meets with high voltage coronas: finding new possibility for applications”, The 10th Asian Symposium on Intense Laser Sciences, ASILS10, Sharjah, UAE, March 10-13, 2018 (Invited talk)

 

42. Tie-Jun Wang, Ruxin Li, Zhizhan Xu, and See Leang Chin, “External electric field control on THz generation from femtosecond laser filamentation”, The 4th International Symposium on Microwave/Terahertz Science and Applications and the 8th International Symposium on Terahertz Nanoscience (MTSA2017&TeraNano8), Okayama, Japan, November 19-23, 2017. (Invited talk)

 

41. Tie-Jun Wang, Yaoxiang Liu, Na Chen, Shengzhe Du, Jingjing Ju, Haiyi Sun, Jiansheng Liu, See Leang Chin, Ruxin Li, and Zhizhan Xu, “Laser guided corona discharges and its applications”, The 12th Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR 2017), Singapore, July 31-August 4, 2017. (Oral)

 

40. Tie-Jun Wang, Yaoxiang Liu, Shengzhe Du, Na Chen, Jingjing Ju, Haiyi Sun, Jiansheng Liu, See Leang Chin, Ruxin Li, and Zhizhan Xu, “Laser guided coronas and its applications”, The 26th International Laser Physics Workshop (LPHYS’17), Kazan, Russia, July 17-21, 2017. (Invited talk)

 

39. Tie-Jun Wang, et al., “Laser guided corona discharges and its applications”, the 8th Shanghai-Tokyo Advanced Research (STAR) Symposium on Ultrafast Laser Science, Dunhuang, China, May 27-29, 2017. (Invited talk)

 

38. Tie-Jun Wang, et al., “External electric field control on THz generation from femtosecond laser filamentation”, the 2017 EMN Meeting on Terahertz, Honolulu, Hawaii, USA, April 1-5, 2017. (Invited talk)

 

37. Tie-Jun Wang, et al., “Recent progress on femtosecond laser filament guided discharges at SIOM”, the 6th International Symposium on Filamentation, COFIL2016, Quebec city, QC, Canada, September 5-9, 2016. (Invited talk)

 

36. Tie-Jun Wang, et al., “Recent progress on femtosecond laser filament guided discharges at SIOM”, the 7th Shanghai-Tokyo Advanced Research (STAR) Symposium on Ultrafast Laser Science, Hayama, Japan, May 20-22, 2016. (Invited talk)

 

35. Tie-Jun Wang, et al.Femtosecond laser filament based intense THz source: generation, control and application” The 10th Asia-Pacific Laser Symposium (APLS2016), Jeju island, Korea, May 10-14, 2016. (Invited talk)


34. Tie-Jun Wang, “Recent progress on femtosecond laser filament guided discharges at SIOM”, the International Symposium on Filamentation 2016, Quebec city, Canada, Sep.5-9, 2016 (Invited talk)


33. Tie-Jun Wang, et al., “Recent progress on femtosecond laser filament guided discharges at SIOM”, the 7th Shanghai-Tokyo Advanced Research (STAR) Symposium on Ultrafast Laser Science, Hayama, Japan, May 20-22, 2016. (Invited talk)

 

32. Tie-Jun Wang, et al.Femtosecond laser filament based intense THz source: generation, control and application” The 10th Asia-Pacific Laser Symposium (APLS2016), Jeju island, Korea, May 10-14, 2016 (Invited talk)

 

31. Tie-Jun Wang, et al. “Laser guided corona discharges” the 3rd Conference on Laser, Weather, and Climate (LWC 2015), Geneva, Switzerland, September 21-23, 2015. (Invited talk)


30. Tie-Jun Wang, Jingjing Ju, Ruxin Li, Zhizhan Xu, and See Leang Chin, "Plasma filament based intense THz source and its application on plasma density measurement of filament", the 24th Laser Physics Workshop, Shanghai, China, August 21-25, 2015. (Invited talk)

29. Tie-Jun Wang, Jingjing Ju, Ruxin Li, Zhizhan Xu, and See Leang Chin, "Femtosecond laser filament based intense THz source: generation, control and applications", the 10th Ultrafast Optics, UFO X, Beijing, China, August 17-21, 2015.

28. Tie-Jun Wang, Jingjing Ju, Yingxia Wei, Ruxin Li, Zhizhan Xu, and See Leang Chin, "Plasma density measurement inside laser filament via DC enhanced THz spectroscopy", Cruising Optics Frontiers, Greece, July 13-17, 2015. (Invited talk)

27. Tie-Jun Wang, Jingjing Ju, Yingxia Wei, Ruxin Li, Zhizhan Xu, and See Leang Chin, "Plasma density measurement along femtosecond laser filament via enhanced THz spectroscopy", FTu4D.7, CLEO_QELS, San Jose, USA, May 10-15, 2015.

26. Tie-Jun Wang, "Air plasma filament based intense THz source: generation, coherent control and application", International workshop on Novel Light Sources from laser-plasma interaction, NLight15, Dresden, Germany, April 20-24, 2015.

25. Tie-Jun Wang, et al."Plasma filament based intense THz source and its application", The 13th International Conference on Multiphoton Processes (ICOMP13), Shanghai, China, Dec. 7-10, 2014. (Invited talk)

24. Tie-Jun Wang, et al."Plasma filament based intense THz source and its application", The 3rd International Symposium on Laser Interaction with Matter (LIMIS), Nanjing, China, Nov. 2-5, 2014. (Invited talk)

23. Tie-Jun Wang, et al. “Laser filament based intense THz generation and application” The 5th International Symposium on Filamentation (COFIL2014), Shanghai, China, Sep. 18-24, 2014. (Invited talk and session chair).
24. Tie-Jun Wang, et al. “Femtosecond laser filament induced lasing actions in air” 23th International Laser Physics Workshop, Sofia, Bulgaria, July 14-18, 2014. (Invited talk)

22. Tie-Jun Wang, et al. “Lasing actions from femtosecond laser filament in air” The 8th International West Lake Symposium-Laser Plasma Interactions (IWLS-LPI 2014), Hangzhou, China, April 21-25, 2014. (Invited talk)

21. Tie-Jun Wang, et al. “UV lasing actions from femtosecond laser filament in air,” 6th Asian Workshop on Generation and Application of Coherent XUV and X-ray Radiation (6th AWCXR), Shanghai, China, January 12-15, 2014. (Invited talk)

20. Tie-Jun Wang, et al. “Filament-induced lasing action: looking from backward to forward,” International workshop on ultrafast molecular processes in filamentation, Shanghai, China, November 11-13, 2013. (Invited talk)

19. Tie-Jun Wang, et al. “Remote high energy, broadband THz generation and its challenges”, 21th International Laser Physics Workshop, Calgary, Canada, July 23-27, 2012. (Invited talk) and chair for poster session.

18. Invited session chairs for Mini-Symposium on Ultrafast Intense Laser Science, Quebec, July 19-21, 2012 and 21th International Laser Physics Workshop, Calgary, July 23-27, 2012, Canada.

17. Tie-Jun Wang, et al. “Intense terahertz generation from two-color filaments in air”, International symposium on Ultrafast Intense Laser Science 9 (ISUILS 9), Hyatt Regency Maui Resort & Spa, Maui, Hawaii, December, 9-13, 2010. (Poster)

16. Tie-Jun Wang, et al. “Intense terahertz generation from two-color filaments in air”, International symposium on chirped pulse amplification, Laval University, Quebec city, Canada, November 17-21, 2010. (Poster) 2010: and as invited chair in the session of high field physics and biology.

15. S. L. Chin, T.-J. Wang, J.-F. Daigle, Y. Chen, C. Marceau, F. Théberge, M. Châteauneuf and J. Dubois, “Remote Terahertz Emission from Two-color Filaments in Air”, COFIL 2010, 3rd International symposium on filamentation, Aghia Pelaghia, Crete, Greece, May 31-June 05, 2010.

14. Tie-Jun Wang et al. , “High energy THz emission by two-color filamentation in air with pulse duration control,” International workshop on THz wave generation and detection in filaments, Laval University, Quebec City, Canada, May 22-23, 2009. (Invited talk)

13. Christoph Wandt, Sandro Klingebiel, Izhar Ahmad, Tie-Jun Wang, Sergei Trushin, Zsuzsanna Major, Mathias Siebold, Ferenc Krausz, and Stefan Karsch, “High-energy, diode-pumped CPA based on Yb-doped materials,” CA4.5, CLEO/EUROPE-EQEC, Munich, ICM, Germany, June 14-19, 2009.

12. Christoph Wandt, Sandro Klingebiel, Rainer H¨orlein, Izhar Ahmad, Tie-Jun Wang, Sergei Trushin, Zsuzsanna Major, Mathias Siebold, Joachim Hein, Ferenc Krausz and Stefan Karsch, “High-energy, diode-pumped CPA to the Joule-level based on Yb-doped materials,” WA4, OSA/Advanced Solid-State Photonics (ASSP), San Diega, CA, USA, January 31-February3, 2009.

11. Sandro Klingebiel, Christoph Wandt, Mathias Siebold, Zsuzsanna Major, Izhar Ahmad, Sergei Trushin, Rainer H¨orlein, Tie-Jun Wang, Ferenc Krausz and Stefan Karsch, “Counteracting gain narrowing using spectral amplitude shaping in a high-energy diode-pumped CPA system based on Yb-doped materials,” TuB9, OSA/Advanced Solid-State Photonics (ASSP), San Diega, CA, USA, January 31-February3, 2009.

10. Izhar Ahmad, Sergei Trushin, Zsuzsanna Major, Christoph Wandt, Sandro Klingebiel, Vladimir Pervak, Antonia Popp, Tie-Jun Wang, Mathias Siebold, Alexander Apolonskiy, Ferenc Krausz and Stefan Karsch, “Optically Synchronized Frontend for High-Power Short-Pulse OPCPA System,” TuB8, OSA/Advanced Solid-State Photonics (ASSP), San Diega, CA, USA, January 31-February3, 2009.

9. Zsuzsanna Major, Tie-Jun Wang, Izhar Ahmad, Sergei Trushin, J´ozsef A. F¨ul¨op, Andreas Henig, Sebastian Kruber, Raphael Weingartner, Mathias Siebold, Joachim Hein, Christoph Wandt, Sandro Klingebiel, Antonia Popp, Jens Osterhoff, Rainer H¨orlein, Vladimir Pervak, Alexander Apolonski, Ferenc Krausz, Stefan Karsch, “OPA development on the Petawatt Field Synthesizer”, MB5, OSA/Advanced Solid-State Photonics (ASSP), San Diega, CA, USA, January 31-February3, 2009.

8. M. Siebold, S. Klingebiel, C. Wandt, Zs. Major, A. Popp, I. Ahmad, T.-J. Wang, J. Hein, F. Krausz, S. Karsch, “High Energy Diode‐Pumped Yb:YAG Laser for ns-Pulses, ” MF3, Yb-doped materials, OSA/Advanced Solid-State Photonics (ASSP), Nara, Japan, January 27, 2008.

7. S. Karsch, Zs. Major, J. Fulop, I. Ahmad, T.-J. Wang, A. Henig, S. Kruber, R. Weingartner, M. Siebold, J. Hein, C. Wandt, S. Klingebiel, J. Osterhoff, R. Horlein, F. Krausz, “The Petawatt Field Synthesizer: A new Approach to Ultrahigh Field Generation,” WF1, Novel Ultrafast Sources (WF), OSA/Advanced Solid-State Photonics (ASSP), Nara, Japan, January 27, 2008.

6. Z.-H. Kang, T.-J. Wang, Yu.M. Andreev, V.V. Atuchin, G.V. Lanskii, T.D. Malinovskaya, S.Yu. Sarkisov, and A.N. Morozov, “SHG in GaSe1-xSx solid solution crystals,” The 8th international conference “atomic and molecular pulsed lasers”, G-25, p.104, Eds. A. Klimkin and E. Klimkina, Tomsk: IAO SB RAS, 2007.

5. Z.-H. Kang, T.-J. Wang, Yu.M. Andreev, and G. Lanskii, “Correlation between optical properties and phase matching in HgGa2S4,” The 8th international conference “atomic and molecular pulsed lasers”, G-7, p.96, Eds. A. Klimkin and E. Klimkina, Tomsk: IAO SB RAS, 2007.

4. Yi Qu, Z.-H. Kang, T.-J. Wang, Yu. M. Andreev, G. V. Lanskii, A. N. Morozov, and S. Yu. Sarkisov, “Detection of carbon oxide gas at CO2 laser second harmonic wavelength,” XIV-th International Symposium "Atmospheric and Ocean Optics. Atmospheric physics" p.169-170 June 24-29, 2007, Buryatiya, Russia

3. Qiong-Yi He, Jin-Hui Wu, Tie-Jun Wang, Jin-Yue Gao, “Dynamic control of the photonic stop-bands formed by standing wave in inhomogeneous broadening solids”, 2006’ General Meeting of Chinese Optical Society, p.17, Guangzhou, September 3-6, 2006.

2. Tie-Jun Wang, Hong-Zhi Zhang, Qiong-Yi He, Zhi-Hui Kang, Yun Jiang, Jin-Yue Gao, “AgGaS2 optical parametric oscillator”, 2006’ General Meeting of Chinese Optical Society, p.18, Guangzhou, September 3-6, 2006.

1. Tie-Jun Wang, Han Sun, Qiong-Yi He, Hong-Zhi Zhang, Zhi-Hui Kang, Yun Jiang, Jin-Yue Gao. “Analysis of tuning and threshold of AgGaS2 optical parametric oscillator”, 2006 China Doctoral Forum in Physics, p.72, Beijing, July 19-22, 2006.

Collaboration

Prof. See Leang Chin, Laval University, Canada


Prof. Olga Kosareva, Moscow State University, Russia


Prof. Matteo Clerici, Glasgow University, UK

Students

已指导学生

刘尧香  硕士研究生  085202-光学工程  

魏迎霞  硕士研究生  085202-光学工程  

郭豪  硕士研究生  085202-光学工程  

杜盛喆  硕士研究生  080300-光学工程  

张旋  硕士研究生  080300-光学工程  

刘尧香  博士研究生  070207-光学  

郭豪  博士研究生  080300-光学工程  

郑恒毅  硕士研究生  080300-光学工程  

尹富康  博士研究生  070207-光学  

现指导学生

杨超鹏  硕士研究生  080300-光学工程  

龙娟  博士研究生  070207-光学  

侯哲远  硕士研究生  085400-电子信息  

许颖  博士研究生  070200-物理学