Liu Zuoye
Prof.Zuoye Liu
Address: 199Donggang West, Lanzhou City, Gansu 730000
Education:
2010: Doctor of Science, Lanzhou University, Particle and nuclear physics
2010: Master of Science, Lanzhou University, Particle and nuclear physics
2008: Bachelor of Science, Lanzhou University, Applied physics
Professional Experience:
Lanzhou University, Teacher, 2012- Present
Research Interests:
The Quantum control of atomic and molecular system by strong laser filed
The transient absorption measurement by femtosecond laser pulses
The detection of radioactive nuclide by laser Spectroscopy
Teaching Courses:
General physics
Computational physics
Honors & Awards:
Academic new artist for doctoral student by Chinese Ministry of Education
National scholarships for doctoral student
The plan of Young professor in Lanzhou University
Projects:
National Natural Science Foundation of China (Grants No. 11504148)
The study of quantum-phase modulation of the polarized dipole incomplexsystems by applying ultrashort pulse
Publications:
[1]Phase reconstruction of coherently excited systems by transient-absorption spectroscopy, Zuoye Liu, Stefano M. Cavaletto, Christian Ott, Kristina Meyer, YonghaoMi, Zoltán Harman, Christoph. H. Keitel, and Thomas Pfeifer, Phys. Rev. Lett. 115 (2015) 033003;
[2] Phase reconstruction of a strong-laser-field-excited complex molecular system,Yanghua Zhang, Zhenhao Wang, Quanjun Wang, Jingjie Ding, Shaohua Sun, Zuoye Liu,* and Bitao Hu, PHYSICAL REVIEW A 98, 033412 (2018);
[3]Observation and quantification of the quantum dynamics of a strong-field excited multi-level system, Z. Liu, Q. Wang, J. Ding, S. M. Cavaletto, T. Pfeifer and B. Hu, Sci. Rep., , 7: 39993–39999 (2017);
[4]Generation of high-frequency combs locked to atomic resonances by quantum phase modulation, Z. Y. Liu, C. Ott, S. M. Cavaletto, Z. Harman, C. H. Keitel, and T. Pfeifer, New J. Phys. 16 (2014) 093005;
[5]Control of third harmonic generation by plasma grating generated by two noncollinear IR femtosecond filaments, Zuoye Liu, Pengji Ding, Yanchao Shi, Xing Lu, Shaohua Sun, Xiaoliang Liu, Qingchao Liu, Baowei Ding, and Bitao Hu, Opt. Express 20 (2012) 8837;
[6]Signatures and control of strong-field dynamics in a complex system, K. Meyer, Z. Liu, N. Müller, J.-M. Mewes, A. Dreuw, T. Buckup, M. Motzkus, and T. Pfeifer, PNAS 2015, 112(51), 15613.
[7]Enhancement of third-order harmonic generation by interaction of two IR femtosecond filaments,Z.Y. Liu, P. J. Ding, Y. C. Shi, X. Lu, Q. C. Liu, S. H. Sun, X. L. Liu, B. W. Ding, and B. T. Hu, Laser Phys. Lett. 9 (2012) 649;
[8]Fluorescence spectroscopy of gas plasma induced by multifilament interaction,Bitao Hu, Zuoye Liu, Lu Li, Shaohua Sun, Pengji Ding,Yanchao Shi, Xiaoliang Liu, Qingcao Liu, ZeqinGuo, and Baowei Ding, Laser Phys. Lett., 9 (2013) 075401;
[9]Control of molecular excitation during the plasma generation of a femtosecond laser pulse,Quanjun Wang, Yanghua Zhang, Zhenhao Wang, Jingjie Ding, Zuoye Liu*, and Bitao Hu Chinese Optics Letters, 14(11): 110201(2016).
[10]Propagation of a filamentary femtosecond laser beam with high intensities at an air-solid interface, Z. Y. Liu,Y. Zhang,J. Ding,S. Sun and B. T. Hu, Chinese Optics Letters 15(2), 021401 (2017).
[11]Ultraviolet conical emission produced by high-power femtosecond laser pulse in transparent media, Z. Y. Liu, X. Lu, Q. C. Liu, S. H. Sun, L. Li, X. Liu, B. W. Ding, and B. T. Hu, Appl. Phys. B 108 (2012) 493;
[12]Energy exchange process among multiple filamentary femtosecond laser beams in air, J. Ding, P. Ding, Z. Liu* and B. T. Hu, Sci. China Phys. Mech. 2016, 59, 633001
[13]Spatiotemporal pulse-splitting of a filamentary femtosecond laser pulse via multi-filament interaction, J J Ding, Z Y Liu*, S H Sun, Y C Shi and Bitao Hu, Laser Phys. 25 (2015) 105401;
[14]Spectral modulation and supercontinuum generation assisted by an infrared femtosecondplasma grating, Z.Y. Liu, S. H. Sun, Y. C. Shi, P. J. Ding, Q. C. Liu, X. L. Liu, B. W. Ding, and B. T. Hu, Chin. Phys. B 22, 075204 (2013);
[15]Characterization of Femtosecond Laser-Induced Plasma under Low Pressure in Argon, Cao Y., LIU X., Xian W., Sun S., Sun M., Ding P., Shi Y., Liu Z., Hu B. Chin. Phys. Lett. 32 (2015) 035203;
[16]Efficient generation of third harmonic radiation of air filament induced by plasma grating, Z.Y. Liu, Y. C. Shi and B. T. Hu, Acta Phys. Sin. 63, (2014) 184206;
[17]Therortical study of stereo-dynamics for the reaction C(3P)+CH(2II)→C2+H on the three lowest potential energy surfaces, Z. Y. LIU and B. T. HU, J Theor. Comput. Chem., 9 (2010) 1065;
[18]Dynamics of Coulomb explosion of Xe clusters in an ultrafast high-intensity laser field, Z Y Liu, H C Du, S H Sun, L Li, L L Ma and B T Hu, Indian J. Phys. 86 (2012) 647;
[19]Focusing property for ultra-short pulse laser reflected by off-axis parabolic mirrors, Z. Y. Liu,L. Li,B. T. Hu,Laser Techonol. 36 (2012) 657;
[20]Spatial splitting of femtosecond laser pulse induced by infrared plasma grating, Zuoye Liu and Bitao Hu J. Phys.: Conf. Ser. 488 (2014) 032007;
[21]Quasi-classical study of stereo-dynamics for the reaction C+CH→C2+H on the 12A’ potential energy surface, H R Yang, Z Y Liu, S H Sun, H C Du, L Li, B T Hu, J Theor. Comput. Chem., 10 (2011) 75;
[22]Spectral characterization of third-order harmonic generation assisted by a two-dimensional plasma grating in ir, P. J. Ding, Z. Y. Liu, Y. C. Shi, S. H. Sun, X. L. Liu, X. Sh. Wang, Z. Q. Guo, Q. C. Liu, Y. H. Li, and B. T. Hu Phys. Rev. A 87 (2013) 043828;
[23]Measurement of nonlinear refractive index coefficient using emission spectrum of filament induced by gigawatt-femtosecond pulse in BK7 glass, X Lu, Q C Liu, Z Y Liu, S H Sun, P J Ding, B W Ding, and B T Hu, Appl. Opt. 51 (2012) 2045;
