Электронная библиотека (репозиторий) Томского государственного университета
Sorokin, Dmitry A. | Beloplotov, Dmitry V. | убегающие электроны

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Source: Technical physics. 2022. Vol. 67, № 4. P. 267-276
Type: статьи в журналах
Date: 2022
Description: The conditions have been studied, under which, during a subnanosecond breakdown of centimeter-length gaps filled with air at atmospheric pressure, current pulses of a runaway electron beam (RAEB) of a ... More
Source: JETP letters. 2022. Vol. 116, № 5. P. 293-299
Type: статьи в журналах
Date: 2022
Description: Представлены результаты первых экспериментальных исследований генерации убегающих электронов (УЭ) при субнаносекундном пробое промежутка “плоскость-острие” вследствие развития положительной волны иони ... More
Source: Plasma science and technology. 2019. Vol. 21, № 4. P. 044007 (1-9)
Type: статьи в журналах
Date: 2019
Description: The effect of air pressure (12.5, 25, 50, and 100 kPa) on the generation of runaway electron beams in a non-uniform electric field when applying voltage pulses (≈35 kV) with a rise time of ≈200 ns has ... More
Source: Optics and spectroscopy. 2017. Vol. 123, № 6. P. 867-870
Type: статьи в журналах
Date: 2017
Description: The spectra and amplitude–time characteristics of the radiation of studied Sn and Fe-doped Ga2O3 crystals excited with a runaway electron beam and an excilamp with a wavelength of 222 nm were investig ... More
Source: Physics of plasmas. 2015. Vol. 22, № 3. P. 033511-1-033511-8
Type: статьи в журналах
Date: 2015
Description: Diffuse discharges preionized by runaway electrons can produce large-area homogeneous discharges at elevated pressures, which is an intriguing phenomenon in the physics of pulsed discharges. In this p ... More
Source: Journal of Physics: Conference Series. 2015. Vol. 652. P. 012012 (1-6)
Type: статьи в журналах
Date: 2015
Description: Spectral and amplitude-temporal characteristics of plasma radiation of nanosecond pulse-periodic discharge in air, nitrogen and argon in pressure range of 30-760 Torr were investigated. Discharge gap ... More
Source: Chinese physics letters. 2014. Vol. 31, № 8. P. 085201-1-085201-4
Type: статьи в журналах
Date: 2014
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