Individual Resume: Chenghou Tu, male, born in Xinyang City of Henan Province in Aug. 1976, is a member of Communist Party of China and an associate professor. In 2008, he graduated from Major of Optics in School of Physics of Nankai University, got the Ph. D degree in Science and elected to be a teach in the university. He is mainly engaged in the optical field spatial manipulation and application, femtosecond laser micro-nano processing, nonlinear optics, etc. Until now, he has taken charge of or finished the general project of National Natural Science Foundation of China, the major and general projects of Tianjin Natural Science Fund, the educational reform project of university and other topics. Moreover, as the key talent, he has participated in the project of National Basic Research Program (973 project) and the Key Project of National Natural Science Foundation of China. He has published more than 40 papers in the domestic and international famous academic journals, and applied for three invention patents. He is the reviewer of many journals, e.g., Opt. Lett., Opt. Express, Sci. Rep, Appl. Opt., and he is also invited to serve as the evaluation expert for National Natural Science Foundation of China. Since 2011, he has served as the master's supervisor and supervised a number of master graduate students. He is a member of “Tianjin Municipal Teaching Team of Fundamental of College Physics. He supervised the Undergraduate National Scientific Research Project and won the Grand Prize of Nankai University in 2017.
Research direction:
·Multidimensional (including polarization, phase and mode) manipulation of optical fields and its applications
·Femtosecond micromachining (waveguide, micro-nano structure and devices) and its applications
·Interaction between laser-substance/micro-nano structure
Research projects and academic publications:
Projects:
1. Youth Project of Research Fund for the Doctoral Program of Higher Education of China: Mechanism and Experimental Research of High Repetition Frequency Femtosecond Laser writing Lithium Niobate Waveguide Device (RMB 36,000), 1/2010 - 12/2012, finished
2. The Fundamental Research Funds for the Central Universities: The Preparation and Mechanism of Novel Infrared Enhanced Absorption Black Silicon Materials and its Application in Infrared Photodetectors (RMB 150,000), 6/2010 -5/2012, finished
3. Opening fund of State Key Laboratory of Transient Optics and Photonic Technology: Study on the beyond-diffraction Limit Micro-nano structure fabrication based on the Femtosecond Vector Field (RMB 50,000), 12/2012 - 12/2014, finished
4. General project of National Science Foundation of Tianjin: Study on the Focal Field manipulation of Femtosecond Vector Field and its applications in Super-resolution Micro-nano Processing (RMB 100,000), 4/2012 - 3/2015, finished
5. General project of National Natural Science Foundation of China: Study of the beyond-diffraction-limit micro-structure fabrication based on the femtosecond vector optical field and its properties (RMB 900,000), 1/2013 - 12/2016, finished
6. Project of National Basic Research Program: Optical Field Manipulation and its Interaction with Microstructures, first topic: Manipulation Mechanism, Generation Technology and Novel Properties of Spatially Structured Optical Field (RMB 7.84 million), 1/2012 - 12/2016, finished
7. Key project of National Science Foundation of Tianjin: Study on the Optical Field Regulation based on the Customized Micro-nano Structure (RMB 0.2 million), 4/2016 - 3/2019, in progress
8. Key project of National Natural Science Foundation of China: Manipulation, Novel effects and Potential Applications of the Spatial Fractal Vector Fields (RMB 3.694 million), 1/2016 - 12/2020, in progress
9. General project of National Natural Science Foundation of China: Optical field manipulation based on the dielectric micro/nanostructure by femtosecond direct writing and its applications, (RMB 650,000), 1/2018 - 12/2021, in progress
Academic publications (part):
1. P. P. Li, M. Q. Cai, J. Q. Lv, D. Wang, G. G. Liu, S. X. Qian, Y. N. Li, C. H. Tu(*), and H. T. Wang,Control of femtosecond multi-filamentation in glass by designable patterned optical
fields,AIP Advances 6, 125103-1-10(2016)
2. M. Q. Cai, P. P. Li, D. Feng, Y. Pan, S. X. Qian, Y. N. Li, C. H. Tu(*), and H. T. Wang, “Microstructures fabricated by dynamically controlled femtosecond patterned vector optical fields,”Opt. Lett. 41, 1474-1477 (2016)
3. S. M. Li, Z. C. Ren, L. J. Kong, S. X. Qian, C. H. Tu(*), Y. N. Li, and H. T. Wang, “Unveiling Stability of Multiple Filamentation Caused by Axial-Symmetry Breaking of Polarization”, Photon. Res. 4, B29-34(2016)
4. X. Z. Gao, Y. Pan, S. M. Li, D. Wang, Y. Li, C. H. Tu(*), and H. T. Wang, “Vector optical fields broken in the spatial frequency domain,” Phys. Rev. A 93, 033834 (2016)
5. Y. Pan, Z. C. Ren, S. X. Qian, X. Z. Gao, Y. Li, C. H. Tu(*), and H. T. Wang, “Uniformly elliptically-polarized vector optical fields,” J. Opt. 17, 035616 (2015)
6. X. Z. Gao, Y. Pan, M. Q. Cai,Y. N. Li,C. H. Tu(*),H-T. Wang,“Hyperbolic-symmetry vector fields”,Opt. Express 23, 32238-32252 (2015)
7. Z. C. Ren, L. J. Kong, S. M. Li, S. X. Qian, Y. N. Li, C. H. Tu(*), and H. T. Wang, “Generalized Poincare sphere,” Opt. Express 23, 26586-26595 (2015)
8. M. Q. Cai, C. H. Tu(*), H. Zhang, S. Qian, K. Lou, Y. Li, and H. T. Wang, “Subwavelength multiple focal spots produced by tight focusing the patterned vector optical fields,” Opt. Express 21, 31469-31482 (2013)
