Zuoye Liu | Physics | Best Researcher Award

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Dr. Zuoye Liu | Physics | Best Researcher Award

Professor at Lanzhou University, China

Zuoye Liu is a distinguished professor at Lanzhou University specializing in ultrafast physics and nuclear detection. He leads research on the dynamics of microscopic particles, employing pulsed lasers for advances in nuclear physics and chemistry. Liu’s groundbreaking work on XUV pulse shaping and fast detection technologies has earned him recognition in scientific communities. He has published over 40 articles and has played a pivotal role in research funded by prominent Chinese scientific programs. His contributions continue to drive innovation in laser technologies and nuclear science. 🌟

Publication Profile : 

Scopus

Educational Background 🎓

Zuoye Liu holds a position as a Professor at Lanzhou University, where his academic journey has led to impactful contributions in the fields of ultrafast physics and nuclear detection technologies.

Professional Experience 💼

Professor Liu has been a leading researcher in the area of micro-particle dynamics control and the application of pulsed laser technologies. His work spans the development of novel instruments, physical mechanism disclosures, and the design of cutting-edge application schemes. Over the years, he has contributed to numerous high-profile projects funded by national programs, including the National Natural Science Foundation of China and the National Key Research and Development Program. With more than 40 published articles in prestigious journals, his research continues to shape advancements in nuclear physics, nuclear chemistry, and ultrafast optics.

Research Interests 🔬

Professor Liu’s research primarily focuses on the reconstruction of microscopic particle dynamics and the application of ultrafast lasers in nuclear physics, detection, and chemistry. He has proposed innovative “light-light” modulation schemes to perfect XUV pulse shaping for enhanced light absorption in materials. Additionally, he is a pioneer in developing fast online detection methods for multiple nuclides and exploring the complex interplay of laser pulses in microscopic systems.

Publications 📚

  • Y He, Z Liu, C Ott, A N Pfeiffer, S Sun, M B Gaarde, T Pfeifer, Bitao Hu, Resonant Perfect Absorption Yielded by Zero-Area Pulses, Phys. Rev. Lett, 2022, 129, 273201.
  • Z Liu, S M Cavaletto, C Ott, K Meyer, Y Mi, Z Harman, C H Keitel, T Pfeifer, Phase reconstruction of coherently excited systems by transient-absorption spectroscopy, Phys. Rev. Lett, 2015, 115, 033003.
  • Zhang Y, Gao Y, Lei H, et al., Free-space competition between gain-swept superradiance and spontaneous emission from N2+ in a femtosecond filament, Physical Review A, 2024, 109(1), 013105.
  • Shi Y, Xiang Y, Su R, et al., A method to obtain radioactivity of non-γ nuclides by 60Co based on Monte Carlo simulations, Nuclear Engineering and Technology, 2024, 56(10), 4134-4140.
  • Zhang Y, Yang R, Zhu Z, et al., Complete suppression of N2 lasing by the nonadiabatic molecular alignment effect in femtosecond filaments, Physical Review A, 2024, 110(2), 023106.
  • Shi H, Gao J, He Y, et al., Coherent modulation of intense XUV pulses by ground-state coupling, Physics Letters A, 2024, 516, 129650.
  • Zhao T, Ding P, Wang Y, et al., Deep learning assisted pressure measurements using femtosecond laser-induced grating scattering technique, Journal of Physics D: Applied Physics, 2024, 57(15), 155201.
  • Wang L, Ding P, Yan S, et al., Soot volume fraction measurements in aero-engine model combustor outlet using two-color laser-induced incandescence, Chinese Journal of Aeronautics, 2024.
  • Wang J, Yue J, Zhang Y, et al., Hot Electron- and Spin-Flip-Assisted Upconversion Excitation in the La0.7Sr0.3MnO3/BiFeO3 Heterojunction, The Journal of Physical Chemistry C, 2024, 128(34), 14337-14346.
  • Li Y, Song S, Han Y, et al., Coulomb-induced emission time shifts in high-order harmonic generation from H2, Opt Express, 2024, 32(11), 18984-18996.
  • Yang J, Liu Z, Yang C, et al., Determination of La in rare earth ores using laser-induced breakdown spectroscopy combined with bidirectional long short-term memory, Applied Physics B, 2024, 130(5), 81.
  • Wu S, Yang C, Yue J, et al., Analysis of Cs solution by nano-silica particles-enhanced laser-induced breakdown spectroscopy, Applied Physics B, 2024, 130(10), 170.