Yuri Kurilenkov | Computational Methods | Best Researcher Award

Dr. Yuri Kurilenkov | Computational Methods | Best Researcher Award

Dr. Yuri Kurilenkov | P.N. Lebedev Physical Institute RAS | Russia

👨‍🎓 Profile

đź“š Early Academic Pursuits

Dr. Yuri K. Kurilenkov began his academic journey with a M.S. in Physics of Strongly Coupled Ionic Systems from the Moscow Power Engineering Institute in 1971. His early research focused on the theoretical and experimental aspects of plasma physics, culminating in a Ph.D. in “Fluctuating Microfields and Opacities in Strongly Coupled Plasmas” from the Institute for High Temperatures, Russian Academy of Sciences, in 1978. This foundational education established his expertise in plasma dynamics and microfield fluctuations, pivotal for his later contributions.

👨‍🔬 Professional Endeavors

Dr. Kurilenkov has been associated with the Institute for High Temperatures, Russian Academy of Sciences, since 1971, starting as a Research Scientist in the Department of Plasma Physics. In 1981, he transitioned to the Department of Optics and Applied Physics, where he has served as a Senior Researcher. Over decades, his work has spanned optical and transport properties of strongly coupled plasmas, laser-material interactions, and the exploration of hot dense matter physics.

🔬 Contributions and Research Focus

Dr. Kurilenkov’s research interests encompass a wide array of cutting-edge topics, including:

  • Anomalous Stopping: Understanding energy dissipation in plasma systems.
  • High Energy Density Matter: Studying x-ray generation and energy conversion under extreme conditions.
  • Modern Neutron Sources and Nuclear Synthesis: Exploring innovative methods like DD and aneutronic pB11 synthesis.
    His investigations into collective phenomena in collision-dominated plasmas and density effects in radiation and stopping have significantly advanced the understanding of non-ideal plasmas.

🌟 Impact and Influence

Dr. Kurilenkov has received numerous honors, including a Fellowship from MENESR, France, in 1996, and multiple visiting professorships at prestigious institutions like the University of Maryland and the University of California. His collaborative work under NATO Science Programs has pioneered advancements in plasma absorption, stopping, and x-ray emission efficiency. These efforts have enriched global understanding of high energy density matter and its practical applications.

đź“Š Academic Citations

Dr. Kurilenkov has contributed to over 60 refereed journal papers and 140 conference presentations, highlighting his prolific output. His single-authored book and multiple collaborative projects underscore his academic influence in the field of plasma physics.

🛠️ Technical Skills

Dr. Kurilenkov is proficient in advanced experimental and theoretical techniques in:

  • Plasma Spectroscopy
  • High-Energy Particle Generation
  • Optical Diagnostics for dense plasmas
    His technical expertise enables precise insights into vacuum discharge phenomena and x-ray efficiency under extreme conditions.

🏫 Teaching and Knowledge Dissemination

As a visiting professor at top universities worldwide, Kurilenkov has inspired the next generation of researchers. He has delivered lectures on plasma dynamics, energy conversion systems, and innovative neutron source technologies, fostering cross-disciplinary knowledge exchange.

🏅 Legacy and Future Contributions

Dr. Yuri K. Kurilenkov’s legacy lies in his groundbreaking insights into strongly coupled plasmas and his role in advancing the fundamentals of nuclear technologies. His work on nano-second vacuum discharges and virtual cathodes continues to push the boundaries of nuclear microreactor development. Kurilenkov’s research ensures a lasting impact on the fields of plasma physics and high-energy density systems.

Top Noted Publications

On the Contribution of a Cluster Target to Generation of the DD Neutrons in a Nanosecond Vacuum Discharge
  • Authors: S.Y. Gus’kov, Y.K. Kurilenkov, A.V. Oginov, I.S. Samoilov
  • Journal: Plasma Physics Reports, 2024
Fully Electromagnetic Code KARAT Applied to the Problem of Aneutronic Proton–Boron Fusion
  • Authors: S.N. Andreev, Y.K. Kurilenkov, A.V. Oginov
  • Journal: Mathematics, 2023
Oscillating Plasmas for Proton-Boron Fusion in Miniature Vacuum Discharge
  • Authors: Y.K. Kurilenkov, V.P. Tarakanov, A.V. Oginov, S.Y. Gus’kov, I.S. Samoylov
  • Journal: Laser and Particle Beams, 2023
Electromagnetic Emissions in the MHz and GHz Frequency Ranges Driven by the Streamer Formation Processes
  • Authors: E.V. Parkevich, A.I. Khirianova, T.F. Khirianov, S.A. Ambrozevich, A.V. Oginov
  • Journal: Physical Review E, 2022
On the Plasma Quasineutrality under Oscillatory Confinement Based on a Nanosecond Vacuum Discharge
  • Authors: Y.K. Kurilenkov, V.P. Tarakanov, A.V. Oginov, S.Y. Gus’kov, I.S. Samoylov
  •  Journal: Plasma Physics Reports, 2022