Richard Morrow | Plasma Physics | Outstanding Scientist Award

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Dr. Richard Morrow | Plasma Physics | Outstanding Scientist Award

Research Affiliate at Physics Department, Sydney University, Australia

Dr. R. Morrow is an Australian physicist specializing in plasma physics and electrical engineering. With a Ph.D. in Plasma Physics from Flinders University (1971) and a B.Sc. (Hons) in Physics from Adelaide University (1966), he has contributed extensively to gaseous electronics and industrial physics. He held prestigious positions, including Senior Principal Research Scientist at CSIRO and Senior Research Fellow at Sydney University. Dr. Morrow also founded the Gaseous Electronics Meeting in Sydney and represented Australia in international workshops. His groundbreaking research on electric arcs and ionized gases has earned him multiple accolades, including the WTIA Ramsay Moon Award. šŸ†āš”

Professional Profile

Scopus

Education & Experience šŸŽ“šŸ“š

āœ… B.Sc. (Hons) in Physics ā€“ Adelaide University, 1966
āœ… Ph.D. in Plasma Physics ā€“ Flinders University, 1971
āœ… B.A. in Anthropology ā€“ University of Sydney, 1981

šŸ§Ŗ Career Highlights:
šŸ”¹ Senior Research Fellow ā€“ Sydney University (2004-2007)
šŸ”¹ Principal Consultant ā€“ Morrow Corona Solutions (1999-2004)
šŸ”¹ Senior Principal Research Scientist ā€“ CSIRO (1974-1999)
šŸ”¹ Research Officer ā€“ The Electricity Council Research Centre, UK (1972-1974)
šŸ”¹ Postdoctoral Fellow ā€“ Liverpool University, UK (1970-1972)

Professional Development šŸŒšŸ”

Dr. Morrow has played a key role in advancing plasma physics and gaseous electronics worldwide. He co-founded the Gaseous Electronics Meeting in 1980, fostering global collaboration in the field. His contributions to international scientific committees have been instrumental in shaping conferences like the International Conference on Phenomena in Ionized Gases and the International Gas Discharges Conference. He has represented Australia in Australia/Japan Workshops on Gaseous Electronics and served as a supervisor and examiner for Ph.D. students. His extensive peer-review work for ARC Large Grants further solidifies his influence in the research community. šŸŒāš”

Research Focus āš”šŸ”¬

Dr. Morrow’s research revolves around plasma physics, gaseous electronics, and electrical discharges. His work has significantly contributed to understanding ionized gases, electric arcs, and gas discharges, which are crucial in industrial and telecommunications applications. His expertise in applied plasma physics has led to advancements in electrical insulation, corona discharges, and arc phenomena. By collaborating with leading institutions worldwide, he has enhanced plasma applications in energy systems, telecommunications, and material processing. His legacy continues to inspire researchers in the field of high-energy physics and industrial plasma applications. šŸ”„šŸ”‹

Awards & Honors šŸ…šŸŽ–ļø

šŸ† Academy of Science/Japan Society Fellowship ā€“ Research visits to Tokushima, Kyoto, Morioka & Sapporo (1991)
šŸ† WTIA Ramsay Moon Award Medal ā€“ For exceptional electric arc research (1993)
šŸ† Visiting Fellow, St. John’s College, Cambridge University ā€“ Annually from 1997 to 2001
šŸ† International Scientific Committee Member ā€“ Various ionized gas & plasma conferences
šŸ† Australian Representative ā€“ Australia/Japan Workshops on Gaseous Electronics (1988, 1990, 1994)

Publication Top Notes

  • “A New Comprehensive Theory for Ball and Bead Lightning”:

    • Author: Richard Morrow
    • Journal: The Physicist
    • Year: 2020
    • Citation: Morrow, R. (2020). A New Comprehensive Theory for Ball and Bead Lightning. The Physicist, 57, 14ā€“20.

  • “The Origin of Ball and Bead Lightning from an Expanded Lightning Channel”:

    • Author: Richard Morrow
    • Journal: Journal of Atmospheric and Solar-Terrestrial Physics
    • Year: 2019
    • Citation: Morrow, R. (2019). The Origin of Ball and Bead Lightning from an Expanded Lightning Channel. Journal of Atmospheric and Solar-Terrestrial Physics, 195, 105116.

  • “A New Theory for the Expansion of Lightning Channels from a Diameter of Centimetres to Metres via Ionizing Waves”:

    • Author: Richard Morrow
    • Journal: Journal of Atmospheric and Solar-Terrestrial Physics
    • Year: 2019
    • Citation: Morrow, R. (2019). A New Theory for the Expansion of Lightning Channels from a Diameter of Centimetres to Metres via Ionizing Waves. Journal of Atmospheric and Solar-Terrestrial Physics, 189, 18ā€“26.

  • “A General Theory for Ball Lightning Structure and Light Output”:

    • Author: Richard Morrow
    • Journal: Journal of Physics D: Applied Physics
    • Year: 2018
    • Citation: Morrow, R. (2018). A General Theory for Ball Lightning Structure and Light Output. Journal of Physics D: Applied Physics, 51(14), 145202.

  • “Ball Lightning Dynamics and Stability at Moderate Ion Densities”:

    • Author: Richard Morrow
    • Journal: Journal of Physics D: Applied Physics
    • Year: 2017
    • Citation: Morrow, R. (2017). Ball Lightning Dynamics and Stability at Moderate Ion Densities. Journal of Physics D: Applied Physics, 50(37), 375202.

Kurban Rabadanov | Plasma Physics | Best Researcher Award

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Dr. Kurban Rabadanov | Plasma Physics | Best Researcher Award

Associate professor at Harbin Institute of Technology, China

Short Biography šŸ§‘ā€šŸ”¬āœØ

rabadanov kurban (born July 9, 1991) is an associate professor at Harbin Institute of Technology, China. With a strong background in plasma physics, nanomaterials, and physical chemistry, he has extensive experience in plasma technology and modeling of physical processes. He earned his Ph.D. in physics from Saint Petersburg State University, Russia, in 2019. Before joining Harbin Institute of Technology in 2022, he worked as an assistant professor at his alma mater. His research focuses on low-temperature plasma, plasma medicine, and dusty plasma applications. kurban is dedicated to advancing plasma science through innovative research and numerical simulations. šŸš€šŸ”¬

Professional ProfileĀ 

Education & Experience šŸŽ“šŸ’¼

šŸ“ Education

  • šŸŽ“ 2013 ā€“ Bachelor’s in Physics, Saint Petersburg State University, Russia
  • šŸŽ“ 2015 ā€“ Master’s in Physics, Saint Petersburg State University, Russia
  • šŸŽ“ 2019 ā€“ Ph.D. in Physics, Saint Petersburg State University, Russia

šŸ“ Work Experience

  • šŸ‘Øā€šŸ« 2015-2022 ā€“ Assistant Professor, Saint Petersburg State University
  • šŸ‘Øā€šŸ”¬ 2022-Present ā€“ Associate Professor, Harbin Institute of Technology, China

Professional Development šŸŒšŸ”¬

rabadanov kurban has contributed significantly to the fields of plasma physics and nanotechnology. His expertise extends to low-temperature plasma, dusty plasma, and plasma medicine, where he explores their applications in health and technology. He has been involved in developing numerical models for simulating plasma behavior and optimizing plasma-based applications. His work integrates theoretical studies with experimental techniques, enhancing plasma technology advancements. With an active research presence, kurban collaborates internationally, sharing insights at conferences and engaging in multidisciplinary projects. His dedication to innovation and discovery makes him a key figure in plasma research. āš”šŸ§ŖšŸ’”

Research Focus šŸ§‘ā€šŸ’»āš—ļø

kurban’s research primarily revolves around plasma physics and nanomaterials. His work delves into low-temperature plasma applications in medicine, where he explores plasma-assisted healing and sterilization. Additionally, he investigates dusty plasma phenomena, focusing on particle interactions and behavior in different environments. His expertise extends to plasma technology development, enabling advancements in industrial and scientific applications. He also specializes in numerical modeling and simulations, enhancing the accuracy of plasma-based predictions. By combining theory, computation, and experimental studies, kurban strives to push the boundaries of plasma science for futuristic applications. šŸš€šŸ¦ šŸ”¬

Awards & Honors šŸ†šŸŽ–

  • šŸ… Outstanding Research Contribution Award ā€“ Recognized for advancements in plasma technology
  • šŸŒŸ Best Paper Award ā€“ International Conference on Plasma and Nanotechnology
  • šŸ† Excellence in Teaching Award ā€“ Saint Petersburg State University
  • šŸ… Young Scientist Award ā€“ Acknowledged for innovative plasma research

Publication Top Notes

1. Investigation of the discontinuous change in the anode potential drop in a helium glow discharge with a cylindrical hollow cathode

  • Journal: Vacuum
  • Year: 2025
  • DOI: 10.1016/j.vacuum.2025.114095
  • Authors: Zijia Chu, Kurban M. Rabadanov, Aleksandr M. Astafiev, Anatoly A. Kudryavtsev, Jingfeng Yao, Chengxun Yuan, Xiangbao Lyu, Zhongxiang Zhou

2. Transverse magnetic field effects on the high-voltage pulsed discharge plasma in helium

  • Journal: Journal of Plasma Physics
  • Year: 2024
  • DOI: 10.1017/S0022377824000138
  • Authors: C. Chen, K. M. Rabadanov, N. A. Ashurbekov, C. Yuan, A. M. Shakhrudinov

3. Specificity of the electron energy distribution function in a low-pressure nitrogen plasma

  • Journal: Plasma Sources Science and Technology
  • Year: 2023
  • DOI: 10.1088/1361-6595/acd3aa
  • Authors: Jingfeng Yao, Chai Yan, Chengxun Yuan, Eugene A. Bogdanov, Kurban Rabadanov, Zhijia Chu, Anatoly Kudryavtsev

4. Simulation of the spatio-temporal evolution of the electron energy distribution function in a pulsed hollow-cathode discharge

  • Journal: Plasma Science and Technology
  • Year: 2023
  • DOI: 10.1088/2058-6272/ac9aa8
  • Authors: N. A. Ashurbekov, K. O. Iminov, K. M. Rabadanov, G. S. Shakhsinov, M. Z. Zakaryaeva, M. B. Kurbangadzhieva

5. Asymmetry of Optical Transmission Spectra of a Pulsed Discharge with an Extended Hollow Cathode During Resonance Interaction of Short Polychromatic Laser Pulses with Excited Neon Atoms

    • Journal: Journal of Applied Spectroscopy
    • Year: 2023
    • DOI: 10.1007/s10812-023-01468-z
    • Authors: N. A. Ashurbekov, M. B. Kurbangadzhieva, K. O. Iminov, G. S. Shakhsinov, K. M. Rabadanov