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Ilya Marinov
Researcher at University of Paris-Sud
Publications - 11
Citations - 1310
Ilya Marinov is an academic researcher from University of Paris-Sud. The author has contributed to research in topics: Nanosecond & Plasma. The author has an hindex of 8, co-authored 11 publications receiving 1011 citations. Previous affiliations of Ilya Marinov include École Polytechnique.
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Plasma-liquid interactions: A review and roadmap
Peter Bruggeman,Mark J. Kushner,Bruce R. Locke,Jge Gardeniers,William Graham,David B. Graves,Rchm Hofman-Caris,D Marić,Jonathan P. Reid,E Ceriani,D. Fernandez Rivas,John E. Foster,Sean C. Garrick,Yury Gorbanev,Satoshi Hamaguchi,Felipe Iza,Helena Jablonowski,E. Klimova,Juergen F. Kolb,František Krčma,Petr Lukes,Zdenko Machala,Ilya Marinov,Davide Mariotti,S. Mededovic Thagard,Daisuke Minakata,Erik C. Neyts,Joanna Pawłat,Z. Lj. Petrović,R Pflieger,Stephan Reuter,DC Daan Schram,Sandra Schröter,Manabu Shiraiwa,Barbora Tarabová,Pa Tsai,Jrr Verlet,T. von Woedtke,Kevin R. Wilson,Kyuichi Yasui,G. Zvereva +40 more
TL;DR: A review of the state-of-the-art of this multidisciplinary area and identifying the key research challenges is provided in this paper, where the developments in diagnostics, modeling and further extensions of cross section and reaction rate databases are discussed.
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Dynamics of plasma evolution in a nanosecond underwater discharge
TL;DR: In this paper, a positive discharge in water is generated by applying a 30 ns high-voltage (HV) pulse on a micrometre scale electrode, where the applied voltage ranges from 6 to 15 kV and a fast plasma propagating mode is launched with a velocity of up to 60 km s−1.
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Cavitation in the vicinity of the high-voltage electrode as a key step of nanosecond breakdown in liquids
TL;DR: In this article, fast shadowgraphy of nanosecond discharge in liquids with different dielectric permittivity, namely in water, ethanol and n-pentane, has been performed.
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Modes of underwater discharge propagation in a series of nanosecond successive pulses
TL;DR: In this paper, the role of electrostriciton in the initiation and propagation of nanosecond discharge in deionized water was studied by time-resolved shadowgraphy and emission imaging.
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Role of charge photodesorption in self-synchronized breakdown of surface streamers in air at atmospheric pressure
TL;DR: The role of photodesorption of negative charges deposited on the Pyrex dielectric barrier is responsible for these self-synchronized breakdowns as discussed by the authors, which is shown to be lower than 3.5 eV.