Current Professional Societies
Member of the optical society of America
Research Areas
1. Femtosecond laser micro-nano technology
2. Ultrafast pump-probe and quantum manipulate
3. Strong-field physics and extreme radiation
Publications
[1] Hai-Ying Song, Peng Wang, Qi-Ni Ge, Shi-Bing Liu, Measurement of the optical dielectric properties of thin-film materials by ultrafast time-resolved interferometry, Results in Physics, 16, 102958, 2020
[2] Xiu Zhang, Hai-Ying Song, et al., Ultrafast hot carrier dynamics of ZrTe5from time-resolved optical reflectivity, Physical Review B, 99, 125141, 2019
[3] Haiying Song, Shengwang Tan, Shibing Liu, Effect of metal surface morphology on nano-structured patterns induced by a femtosecond laser pulse and its experimental verification, Chinese Optics Letters, 16, 073202, 2018
[4] X. C. Nie, H. Y. Song, Xiu Zhang, Shi-Bing Liu, et. Al, Photoinduced two-step insulator-metal transition in Ti4O7via ultrafast time-resolved optical reflectivity, Appl. Phys. Express 11, 095802, 2018
[5] X. C. Nie, H. Y. Song, Xiu Zhang, Peng Gu, Shi-Bing Liu, et al, Transient transition from free carrier metallic state to exciton insulating state in GaAs by ultrafast photo-excitation, New. J. Phys.20, 033015, 2018
[6] H. Y. Song, H. Li, and S. B. Liu, Time-resolved spectroscopy for 5s’4D7/2state transitions undergoing electron–ion recombination in femtosecond laser-produced copper plasma, Chin. Phys. B26, 124208, 2017
[7] Y. Wang, H. Y. Song, and S. B. Liu, High harmonic generation driven by intense ultrashort laser pulse obliquely impinging laminar grating target surface, Phys. Plasmas 24, 083107, 2017
[8] Y. Wang, H. Y. Song, H. Y. Liu, and S. B. Liu, Mechanism of equivalent electric dipole oscillation for high-order harmonic generation from grating-structured solid-surface by femtosecond laser pulse, Phys. Lett. A 381, 2072, 2017
[9] H. Y. Song, S. B. Liu, et al., Subwavelength topological structures resulting from surface two-plasmon resonance by femtosecond laser exposure solid surface, Optics Express 24, 012151, 2016
[10] H. Y. Song, Y. J. Zhang, et al., Sub-wavelength ripple formation on planar and nonplanar surfaces by femtosecond laser scanning, Chinese Optics Letters 14, 123202, 2016
[11] J. Meng, H. Y. Song, S. B. Liu, Influence of femtosecond laser pulse energy on the surface reflection of black silicon in alkaline solution, J. Laser Appl. 28, 012005, 2016
[12] X. M. Dong, H. Y. Song, S. B. Liu, Femtosecond laser-induced large scale periodic surface structures on metals, Chinese Optics Letters 13, 7, 2015
[13] J. Meng, H. Y. Song, et al., Femtosecond laser fabricating black silicon in alkaline solution, Applied Physics A118, 1197, 2015
Personal statement
Song Haiying, Associate Professor and Master Student Supervisor, has been engaged in teaching for 15 years, her research interests have been in ultrafast intense laser physics, laser and materials interaction, femtosecond micro/nano techniques et al. In the recent years, she has presided and taken part in more than 8 research projects as the main member, such as: National Natural Science Foundation and Research Projects, National aerospace project, Chinese Academy of special funds. Now, Pro. Dr. Song is the main person in charge of “Strong-Field and Ultrafast Photonics Lab”, the main research fields are “Strong-field physics and extreme radiation”, “Ultrafast pump-probe and quantum manipulate”, “Nanostructuring on solids surface by ultrafast laser”.
