Evgeny Kuznetsov | Mathematical Physics | Mathematical Physics Leadership Award

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Prof. Dr. Evgeny Kuznetsov | Mathematical Physics | Mathematical Physics Leadership Award

Head of Laboratory of Mathematical Physics at Lebedev Physical Institute of RAS, Russia

Dr. Evgenii Alexandrovich Kuznetsov is a distinguished Russian physicist and mathematician, renowned for his groundbreaking research in nonlinear waves, turbulence, and integrable systems. He earned his Ph.D. in Mathematics and Physics in 1973 and has since contributed significantly to the fields of plasma physics, hydrodynamics, and nonlinear wave theory. Dr. Kuznetsov holds prominent academic positions, including his role as a Principal Research Fellow at the P.N. Lebedev Physical Institute and the Landau Institute for Theoretical Physics. He has been a leading figure in the Center for Nonlinear Studies and has served as Director of the Novosibirsk Department of the International Institute for Nonlinear Science. With extensive international experience as a visiting professor at top institutions worldwide, he is deeply engaged in promoting mathematical physics education. His legacy is marked by numerous publications, significant contributions to theoretical physics, and a strong commitment to advancing nonlinear science globally.

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Education

Dr. Evgenii Alexandrovich Kuznetsov’s educational journey began at Novosibirsk State University, where he completed his undergraduate studies in Physics in 1969. ‘Including Deputy Director of the Landau Institute of Theretical Physics and the Center of Nonlinear Studies”. His academic pursuits led to a Ph.D. in Mathematics and Physics in 1973 from the Institute for Nuclear Physics at the Siberian Branch of the USSR Academy of Sciences. His doctoral thesis focused on nonlinear waves in plasma, under the guidance of Prof. V.E. Zakharov. In 1981, he earned his Doctorate in Mathematics and Physics, with a thesis on the stability of nonlinear waves and turbulence, solidifying his expertise in nonlinear dynamics. His educational background laid the foundation for a distinguished career in theoretical physics, contributing significantly to both research and academic teaching in the field.
(i) Derivation of the so-called Zakharov-Kuznetsov (ZK) equation for describing ion-acoustic waves in a magnetzed plasma, finding within this equation 3D solitons with their Lyapunov stability proving with the help of the Sobolev integral estimation;
(ii) Finding first time exact anisotropic spectra of weak turbulence of the Kolmogorov type for ion-acoustic waves in strongly magnetized plasma with the help of the so called Zakharov-Kuznetsov transformation;
(iii) Construting first time exact solution for breathers of the 1D nonlinear Schrodinger equation by means of the inverse scattering transform.

Professional Experience

Dr. Kuznetsov’s professional experience spans over five decades, beginning as a trainee researcher in 1969 at the Institute for Nuclear Physics. He later became a senior research fellow and head of the Laboratory of Nonlinear Physics at the Institute of Automation and Electrometry. In 1992, he joined the Landau Institute for Theoretical Physics and the P.N. Lebedev Physical Institute, where he held pivotal roles, including Deputy Director of the Center for Nonlinear Studies. He has also been a visiting professor at renowned institutions like the Weizmann Institute of Science and the University of Colorado. Throughout his career, Dr. Kuznetsov has contributed immensely to research and education in nonlinear physics, turbulence, and integrable systems. His extensive career reflects his leadership in scientific research and his role as a mentor to future generations of physicists.

Research Interests

Dr. Kuznetsov’s primary research interests revolve around nonlinear wave dynamics, turbulence, and integrable systems. He has made significant contributions to the study of solitons, plasma physics, and nonlinear hydrodynamics. His research spans a variety of topics, including the stability of nonlinear waves, wave propagation in plasma, and the mathematics of integrable systems. He has pioneered the study of complex wave interactions and turbulence, particularly in plasma and fluid dynamics. Dr. Kuznetsov has also worked on the development of theoretical frameworks for nonlinear phenomena in various physical systems, including those in plasma, hydrodynamics, and integrable systems. His work continues to influence the understanding of nonlinear dynamics in both classical and quantum systems.

Awards and Honors

Dr. Kuznetsov has received numerous awards and honors throughout his career, recognizing his outstanding contributions to theoretical physics and nonlinear science. He has been a principal research fellow at prestigious Russian institutes, including the P.N. Lebedev Physical Institute and the Landau Institute for Theoretical Physics. He has received recognition for his role in advancing nonlinear physics, particularly in the areas of wave dynamics, turbulence, and solitons. His work has also led to invitations as a visiting professor at esteemed institutions worldwide, further attesting to his global influence in the field. His leadership in the Center for Nonlinear Studies and his involvement in international research collaborations have solidified his reputation as a leader in mathematical physics. He was awarded by the L.I. Mandelstam Price of the Russian Academy of Sciences for the cycle of works “Wave collapses in plasma, optics and hydrodynamics” (2012), elected as a full member of the Russian Academy of Sciences (2016).

Conclusion

Dr. Evgenii Kuznetsov’s career is marked by groundbreaking research, leadership in the scientific community, and a deep commitment to advancing the field of nonlinear physics. His extensive academic experience, both as a researcher and educator, has made him a prominent figure in theoretical physics. He has significantly contributed to our understanding of nonlinear waves, turbulence, and integrable systems, leaving a lasting legacy in these fields. His leadership roles at major Russian institutes and his involvement in international collaborations have established him as a key figure in the global scientific community. Dr. Kuznetsov’s continued work and mentorship will undoubtedly inspire future generations of physicists, ensuring that his impact on the field of mathematical physics endures for years to come.

Publications Top Noted

  • Title: Three-Dimensional Acoustic Turbulence: Weak Versus Strong
    Authors: E.A. Kochurin, Evgeny A. Kuznetsov
    Year: 2024
    Citations: 3
    Source: Physical Review Letters

  • Title: Mathematical Methods of Physics: Problems with Solutions
    Authors: I.V. Kolokolov, E.A. Kuznetsov, A.I. Milstein, D.A. Shapiro, E.G. Shapiro

  • Title: Magnetic Filaments: Formation, Stability, and Feedback
    Authors: E.A. Kuznetsov, E.A. Mikhailov
    Year: 2024
    Source: Mathematics

  • Title: Quasiclassical Dynamics of Nonlinear Wave Systems
    Authors: E.A. Kuznetsov
    Year: 2023
    Source: Radiophysics and Quantum Electronics

  • Title: Reply to the Comment to the Paper “Symmetry Approach in the Problem of Gas Expansion into Vacuum”
    Authors: E.A. Kuznetsov, M.Y. Kagan

  • Title: Nonlinear Dynamics of Slipping Flows
    Authors: E.A. Kuznetsov, E.A. Mikhailov, M.G. Serdyukov
    Year: 2023
    Source: Radiophysics and Quantum Electronics

  • Title: Formation of Droplets of the Order Parameter and Superconductivity in Inhomogeneous Fermi–Bose Mixtures (Brief Review)
    Authors: M.Y. Kagan, S.V. Aksenov, A.V. Turlapov, V.M. Silkin, E.A. Burovski
    Year: 2023
    Citations: 3
    Source: JETP Letters

  • Title: Direct Numerical Simulation of Acoustic Turbulence: Zakharov–Sagdeev Spectrum
    Authors: E.A. Kochurin, E.A. Kuznetsov
    Year: 2022
    Citations: 10
    Source: JETP Letters

  • Title: Slipping Flows and Their Breaking
    Authors: E.A. Kuznetsov, E.A. Mikhailov
    Year: 2022
    Citations: 8
    Source: Annals of Physics

  • Title: Instability of Solitons and Collapse of Acoustic Waves in Media with Positive Dispersion
    Authors: E.A. Kuznetsov
    Year: 2022
    Citations: 5
    Source: Journal of Experimental and Theoretical Physics

  • Title: Turbulence of Ion Sound in a Plasma Located in a Magnetic Field
    Authors: E.A. Kuznetsov
    Year: 1972
    Citations: 58
    Source: Soviet Physics JETP, Vol. 35, p. 310
  • Title: Solitons in a Parametrically Unstable Plasma
    Authors: E.A. Kuznetsov
    Year: 1977
    Citations: 655
    Source: Doklady Akademii Nauk SSSR, Vol. 236, pp. 575–577

  • Title: Three-Dimensional Solitons
    Authors: V.E. Zakharov, E.A. Kuznetsov
    Year: 1974
    Citations: 500
    Source: Soviet Physics – Journal of Experimental and Theoretical Physics

 

 

Huihui Song | Mathematical Physics | Best Researcher Award

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Prof. Huihui Song | Mathematical Physics | Best Researcher Award

Vice Dean at Harbin Institute of Technology (Weihai), China

Dr. Song Huihui is a distinguished professor, doctoral supervisor, and Associate Dean at the School of New Energy, Harbin Institute of Technology (Weihai). She is an esteemed member of several technical committees, including the IEEE PES China Technical Committee and the China Society for Electrical Engineering. Her research focuses on renewable energy integration, microgrid and smart grid control, and distributed power network technologies. She has led multiple national and provincial research projects, securing significant funding and contributing groundbreaking work in grid synchronization, energy storage, and zero-carbon village systems. Dr. Song has authored numerous high-impact SCI Q1 journal publications and an academic monograph. Her contributions have earned her prestigious national and provincial research awards, including the Science and Technology Progress Award. With her expertise in power system automation and energy control technologies, Dr. Song continues to drive innovation in the sustainable energy sector, shaping the future of smart and resilient power networks.

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Education

Dr. Song Huihui holds a Ph.D. in electrical engineering, specializing in renewable energy integration and power system control. Her academic journey has been marked by rigorous training in energy systems, control mechanisms, and smart grid technologies. She has cultivated a deep understanding of distributed power networks, microgrid operation, and grid synchronization techniques. With a strong foundation in theoretical and applied research, she has developed expertise in optimizing large-scale renewable energy systems. Her education has been complemented by international collaborations, participation in high-profile research exchanges, and contributions to cutting-edge advancements in energy management. The knowledge and skills acquired during her doctoral and postdoctoral studies have laid the groundwork for her successful career in academia and research. Dr. Song’s academic achievements have enabled her to lead multiple national and international projects, mentor young researchers, and make significant contributions to the evolving landscape of sustainable energy technologies.

Professional Experience

Dr. Song Huihui is a professor, doctoral supervisor, and Associate Dean at the School of New Energy, Harbin Institute of Technology (Weihai). She has held key leadership roles in technical committees, including the IEEE PES China Technical Committee and the China Society for Electrical Engineering. With extensive experience in power system automation and renewable energy research, she has led numerous government-funded and industry-supported projects, addressing challenges in smart grid operation, distributed control, and energy storage. Dr. Song has collaborated with leading institutions and corporations, contributing to large-scale power system innovations and developing solutions for efficient grid integration of renewable energy sources. Her professional career spans academia, industrial partnerships, and policy-oriented research, making her a prominent figure in the field. She actively mentors graduate students, supervises doctoral research, and serves as a young editor for “Electric Power Construction,” furthering her impact on the next generation of energy researchers and professionals.

Research Interest

Dr. Song Huihui’s research focuses on large-scale renewable energy integration, microgrid and smart grid control, distributed energy systems, and energy storage technologies. She explores cutting-edge solutions for grid synchronization, rhythm-based power control, and intelligent control mechanisms to optimize energy networks. Her work emphasizes the development of advanced algorithms for decentralized power distribution, blockchain-enabled energy trading, and artificial intelligence applications in energy management. She is also actively involved in designing zero-carbon village models and multi-energy complementary systems for sustainable urban development. With an interdisciplinary approach, Dr. Song collaborates with researchers in electrical engineering, artificial intelligence, and environmental science to enhance the reliability and resilience of modern power grids. Her contributions to the field have resulted in high-impact publications in SCI Q1 journals, as well as patents and technological advancements that drive the future of smart and efficient energy networks.

Awards and Honors

Dr. Song Huihui has received numerous prestigious awards and honors in recognition of her contributions to energy research and technology development. She has been honored with the National First Prize for Science and Technology Progress by the China Safety Production Association and the China General Chamber of Commerce for her work on distributed photovoltaic microgrid safety systems. Additionally, she has received the Provincial First Prize for Science and Technology Innovation from Yunnan Province for her research on wind energy utilization in complex terrains. Her achievements extend beyond individual recognition, as her collaborative projects have been instrumental in shaping the future of renewable energy and grid stability. These accolades reflect her expertise, leadership, and dedication to advancing energy systems through innovative technologies. As a respected academic and researcher, Dr. Song continues to push the boundaries of sustainable energy solutions, earning national and international recognition for her pioneering work.

Conclusion

Dr. Song Huihui is a highly accomplished researcher, educator, and innovator in the field of renewable energy and power system automation. With a strong academic background, extensive professional experience, and groundbreaking research contributions, she has established herself as a leader in energy control technologies. Her work on grid synchronization, smart grid operations, and zero-carbon energy systems has made a significant impact on the industry and academia. Through her mentorship, publications, and leadership roles in technical committees, she continues to shape the future of sustainable energy. Her numerous awards and honors are a testament to her influence in the field. With an unwavering commitment to advancing energy technologies, Dr. Song is poised to further revolutionize smart and resilient power networks. Her work not only contributes to technological innovation but also plays a vital role in addressing global energy challenges and promoting sustainable development.

Publications Top Noted 

  • SmartGuard: An LLM-Enhanced Framework for Smart Contract Vulnerability Detection
    Authors: Hao Ding, Yizhou Liu, Xuefeng Piao, Huihui Song, Zhenzhou Ji
    Year: 2025
    Source: SSRN
    Link: papers.ssrn.com

  • Optimal Scheduling Strategy for Microgrid Considering the Support Capabilities of Grid Forming Energy Storage
    Authors: Zhibin Yan, Li Li, Peng Yang, Bin Che, Panlong Jin
    Year: 2025
    Source: Electric Power
    Link: mdpi.com

  • Energy-Shaping Control Strategy and Control Parameter Tuning of Cascaded H-Bridge Grid-Connected Inverter
    Authors: Chaodong Li, Manyuan Ye, Yan Ran, Huihui Song
    Year: 2025
    Source: Proceedings of the Chinese Society of Electrical Engineering
    Link: Springer Professional

  • Voltage Control Strategy of Grid Forming Parallel Inverters Based on Virtual Oscillator Control Under Islanded Mode
    Authors: Shitao Wang, Fangzheng Guo, Li Li, Huihui Song, Jingwei Li
    Year: 2025
    Source: Electric Power Automation Equipment
    Link: Nature

  • Energy Storage Configuration and Scheduling Strategy for Microgrid with Consideration of Grid-Forming Capability
    Authors: Zhibin Yan, Li Li, Weimin Wu, Bin Che, Panlong Jin
    Year: 2025
    Source: Electrical Engineering
    Link: Springer Professional

  • Distributed Secondary Control Strategy for the Islanded DC Microgrid Based on Virtual DC Machine Control
    Authors: Li Li, Zhiquan Wu, Haiyu Zhang, Lin Zhu, Huihui Song
    Year: 2025
    Source: Journal of Applied Science and Engineering
    Link: mdpi.com

  • A Fuzzy Hierarchical Selection Method for an Energy Storage Multi Scenario Interval Based on Maximum Evaluation Difference
    Authors: Caijuan Qi, Muyuan Li, Yichen Wu, Yi Wang, Huihui Song
    Year: 2024
    Source: Power System Protection and Control
    Link: Stet Review

  • Application of Energy Shaping Control in New Energy Systems

    • Authors: Song Huihui, Qu Yanbin, Hou Rui
    • Year: 2023
    • Source: Harbin Institute of Technology Press

  • Decentralized Secondary Frequency Control of Autonomous Microgrids via Adaptive Robust-Gain Performance

    • Authors: Jiayi Liu, Huihui Song*, Chenyue Chen, Josep M. Guerrero, Meng Liu, Yanbin Qu
    • Year: 2024
    • Source: IEEE Transactions on Smart Grid

  • Low-Frequency Oscillations in Coupled Phase Oscillators with Inertia

    • Authors: Song Huihui, Zhang Xuewei, Wu Jinfeng, Qu Yanbin
    • Year: 2019
    • Source: Scientific Reports (Nature.com)

  • Frequency Second Dip in Power Unreserved Control During Wind Power Rotational Speed Recovery

    • Authors: Liu Kangcheng, Qu Yanbin, Kim Hak-man, Song Huihui*
    • Year: 2017
    • Source: IEEE Transactions on Power Systems

  • A Blockchain-Enabled Trading Framework for Distributed Photovoltaic Power Using Federated Learning

    • Authors: Xuefeng Piao, Hao Ding, Huihui Song*, Meng Liu, Song Gao
    • Year: 2024
    • Source: International Journal of Energy Research

  • Global Stability Analysis for Coupled Control Systems and Its Application: Practical Aspects and Novel Control

    • Authors: Liu Jiayi, Jiang Shuaihao, Qu Yanbin, Zhang Xuewei, Song Huihui*
    • Year: 2021
    • Source: Journal of the Franklin Institute

  • Crowbar Resistance Value-Switching Scheme Conjoint Analysis Based on Statistical Sampling for LVRT of DFIG

    • Authors: Y.B. Qu, L. Gao, G.F. Ma, H.H. Song*, S.T. Wang
    • Year: 2019
    • Source: Journal of Modern Power Systems and Clean Energy

  • Graph Theory-Based Approach for Stability Analysis of Stochastic Coupled Oscillators System by Energy-Based Synchronization Control

    • Authors: Huaqiang Zhang, Xiangzhong Du, Jiayi Liu, Hak-Man Kim, Huihui Song*
    • Year: 2020
    • Source: Journal of the Franklin Institute

  • Global Stability Analysis for Coupled Control Systems and Its Application: Practical Aspects and Novel Control

    • Authors: Liu J., Jiang S., Qu Y., Zhang X.W., Song H.H.*
    • Year: 2021
    • Source: Journal of the Franklin Institute

  • Transient Stability Analysis and Enhanced Control Strategy for Andronov-Hopf Oscillator Based Inverters

    • Authors: Li Li, Huihui Song, Shitao Wang, Meng Liu, Song Gao, Haoyu Li, Josep M. Guerrero
    • Year: 2024
    • Source: IEEE Transactions on Energy Conversion