V
Victor F. Tarasenko
Researcher at Russian Academy of Sciences
Publications - 549
Citations - 5356
Victor F. Tarasenko is an academic researcher from Russian Academy of Sciences. The author has contributed to research in topics: Laser & Electron. The author has an hindex of 32, co-authored 519 publications receiving 4766 citations. Previous affiliations of Victor F. Tarasenko include Tomsk State University & South Ural State University.
Papers
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Compact solid-State switched pulsed power and its applications
Weihua Jiang,Kiyoshi Yatsui,Ken Takayama,Mitsuo Akemoto,E. Nakamura,N. Shimizu,Akira Tokuchi,S. N. Rukin,Victor F. Tarasenko,Alexei N. Panchenko +9 more
TL;DR: Semiconductor switches have greatly extended the scales of pulsed power parameters, especially in repetition rate and lifetime, and have enabled new areas of pulsing power applications, such as accelerators, flue-gas treatment, and gas lasers.
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Applications of capacitive and barrier discharge excilamps in photoscience
TL;DR: In this paper, the properties of ultraviolet (UV) and vacuum ultraviolet (VUV) radiation produced by excimer and exciplex molecules are presented and a review is dedicated to advances in application of UV/VUV electrodeless capacitive and barrier discharge excilamps in photoscience.
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Diffuse discharge, runaway electron, and x-ray in atmospheric pressure air in an inhomogeneous electrical field in repetitive pulsed modes
Tao Shao,Cheng Zhang,Zheng Niu,Ping Yan,Victor F. Tarasenko,Evgenii Kh. Baksht,Alexander G. Burahenko,Yuliya V. Shut’ko +7 more
TL;DR: In this article, a pulsed discharge in an inhomogeneous electric field at a pressure of 1 atm for varying voltage pulse parameters was reported. But the amplitude of voltage pulses applied to point-to-plane and point-point gaps was 12-140 kV and the full width at half maximum was 1-40 ns.
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Supershort electron beam from air filled diode at atmospheric pressure
TL;DR: In this article, the properties of an electron beam (e-beam) formed in air under atmospheric pressure are reported, where the authors used the nanosecond generators RADAN-303 (two devices) and RadAN-220, producing up to 400 kV and subnanosecond rise time.
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Diffuse discharge produced by repetitive nanosecond pulses in open air, nitrogen, and helium
Tao Shao,Victor F. Tarasenko,Cheng Zhang,Evgeni Kh. Baksht,Dongdong Zhang,Mikhail Erofeev,Chengyan Ren,Yuliya V. Shut’ko,Ping Yan +8 more
TL;DR: In this article, discharges were generated in a highly non-uniform electric field by point-plane gaps in open air by four repetitive nanosecond-pulse generators with repetition rate up to 1 kHz.