Prof. Dr. Ping Yuan, School of Physics and Electronic Engineering, Northwest Normal University, China.
π§βπ¬ Prof. Dr. Ping Yuan is a distinguished professor at the School of Physics and Electronic Engineering, Northwest Normal University. With a Ph.D. from the Chinese Academy of Sciences, he specializes in atmospheric physics, lightning plasma, and spectral analysis β‘π. He has published 80+ papers in renowned journals and led major national research projects. His groundbreaking work on ball lightning π‘ has significantly advanced scientific understanding, earning him a respected place in global physics research. ππ
Profile
Scopus Profile
π Early Academic Pursuits
Prof. Dr. Ping Yuan began his academic journey with a Bachelorβs degree in Physics from Northwest Normal University in 1984. He pursued a Masterβs in Optics from Shaanxi Normal University (1986β1989), demonstrating an early inclination toward advanced physics and optical science. Between 2000 and 2003, he earned a Doctorate at the Cold and Arid Regions Environmental and Engineering Research Institute, Chinese Academy of Sciences, followed by a postdoctoral fellowship at the same institution from 2004 to 2007. π
πΌ Professional Endeavors
Currently serving as a Professor at the School of Physics and Electronic Engineering, Northwest Normal University, Prof. Yuan leads numerous initiatives in atmospheric and lightning physics. His dedication is evident through his guidance of postgraduate research, management of major projects, and extensive publication record in elite scientific journals. π«
π¬ Contributions and Research Focus On PhysicsΒ
Prof. Yuanβs research primarily addresses theoretical atomic structure calculations, plasma spectral analysis, and lightning physics. In 2014, his team was the first to document the full process and spectrum of natural ball lightning, unveiling the mechanism behind its luminescence and physical behavior. His work provides a critical foundation for further exploration of this rare natural phenomenon. β‘
π Impact and Influence
Prof. Yuanβs contributions have significantly advanced atmospheric physics. His leadership in National Natural Science Foundation projects and research on lightning return-stroke currents, corona sheath conductivity, and lightning plasma spectra has made a lasting mark on global lightning science. His research not only influences academic circles but also supports meteorological and environmental safety applications. π
π§ Research Skills
Prof. Yuan is proficient in spectral data analysis, electromagnetic wave modeling, numerical simulations of lightning processes, and optical diagnostics. His robust skillset supports his interdisciplinary approach, enabling collaboration across physics, engineering, and environmental science domains. His ability to link theoretical models with empirical findings strengthens the scientific validity of his conclusions. π§
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Awards and Honors
Prof. Yuan is a prime candidate for the Best Researcher Award, with a legacy of pioneering discoveries, national recognition, and sustained excellence in lightning and plasma physics. His work has not only garnered academic praise but also established him as a leading figure in environmental and atmospheric research. π
ποΈ Legacy and Future Contributions
As a mentor, innovator, and investigator, Prof. Yuanβs legacy lies in his ability to demystify complex atmospheric phenomena and inspire future researchers. His upcoming work aims to enhance real-time lightning detection systems, develop safer atmospheric monitoring technologies, and contribute to global climate resilience strategies. His legacy will continue through the scholars he trains and the knowledge he imparts. π
Publications Top Notes
π The Influence of Corona Sheath Conductivity Distribution on the Transmission Characteristics of Return-Stroke Currents
π Atmospheric Research, 2025
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π Negative Differential Resistance, Instability, and Critical Transition in Lightning Leader
π Nonlinear Processes in Geophysics, 2025
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π Simulation of Lightning Spectra and Diagnosis of Lightning Parameters
π Journal of Applied Physics, 2025
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π Opacity of N II Ion Radiation in the Lightning Discharge Plasma Channel
π Journal of the Optical Society of America B: Optical Physics, 2025
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π Precise Determination of Lightning Plasma Parameters Based on a Collisional-Radiative Model
π Plasma Sources Science and Technology, 2025
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π Using the Space-Time Evolution Spectrum to Investigate the Transmission Characteristics of Lightning Return Stroke Current
π Atmospheric Research, 2024
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π Radial Structure and Optical Radiation Characteristics of the Cloud-Ground Lightning Channel
π Chinese Optics, 2024
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π Abundance Determination of Atoms and Ions in the Channel Plasma of Lightning
π Journal of the Optical Society of America B: Optical Physics, 2024
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π Quantitative Spectral Analysis of Natural Lightning Return Stroke Followed by Continuing Current with M-Components
π Atmospheric Research, 2024
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