Prebreakdown phase in atmospheric discharges

被引:5
作者
A. V. Agafonov
A. V. Oginov
K. V. Shpakov
机构
[1] Lebedev Physical Institute, Russian Academy of Sciences, Moscow
来源
Physics of Particles and Nuclei Letters | 2012年 / 9卷 / 4-5期
基金
俄罗斯基础研究基金会;
关键词
Nucleus Letter; Runaway Electron; Atmospheric Discharge; Discharge Development; Pulse High Voltage Discharge;
D O I
10.1134/S1547477112040024
中图分类号
学科分类号
摘要
Pulsed X-ray radiation with quanta energy higher than 5 keV is recorded during the prebreakdown phase under discharges in atmospheric-pressure air at a maximum voltage from the 0. 8-1. 2 MV range. The UV and X-ray generation region has been localized using collimated and time-resolved diagnostics. In the near-UV range, the maximum radiation intensity corresponds to the instant of X-ray generation. © 2012 Pleiades Publishing, Ltd.
引用
收藏
页码:380 / 383
页数:3
相关论文
共 50 条
[31]   ETCHING OF DIAMOND-LIKE CARBON FILMS AT ATMOSPHERIC PRESSURE [J].
Marcuzzo, Jossano S. ;
Urruchi, Wilfredo I. ;
Massi, Marcos ;
Maciel, Homero S. ;
Otani, Choyu ;
Petraconi, G. .
CAPPSA 2005, PROCEEDINGS, 2005, :268-268
[32]   Characteristics of a nanosecond discharge in atmospheric air with a liquid electrolytic electrode [J].
Shuaibov, A. K. ;
Shevera, I. V. ;
Kozak, Ya Yu ;
Kentesh, G. V. .
TECHNICAL PHYSICS, 2014, 59 (06) :928-931
[33]   Flashes in the Middle and Upper Atmosphere Initiated by the Lightning Discharges: Recent Results and Future Optical and Spectral Observation Methods [J].
A. Yu. Kostinskiy .
Radiophysics and Quantum Electronics, 2014, 56 :846-852
[34]   Superpower volume discharges initiated by avalanche e-beam and electron energy distribution of a volume nanosecond discharge [J].
Tarasenko, Victor F. .
HIGH-POWER LASER ABLATION VI, PTS 1 AND 2, 2006, 6261
[35]   On the generation of supershort avalanche electron beams and x radiation during nanosecond discharges in dense gases (results and discussion) [J].
Tarasenko V.F. ;
Rybka D.B. ;
Baksht E.H. ;
Kostyrya I.D. ;
Lomaev M.I. .
Russian Physics Journal, 2007, 50 (9) :944-954
[36]   The temporal structure of a runaway electron beam generated in air at atmospheric pressure [J].
D. V. Rybka ;
V. F. Tarasenko ;
A. G. Burachenko ;
E. V. Balzovskii .
Technical Physics Letters, 2012, 38 :657-660
[37]   Radiation from a diffuse corona discharge in atmospheric-pressure air [J].
A. V. Kozyrev ;
V. Yu. Kozhevnikov ;
I. D. Kostyrya ;
D. V. Rybka ;
V. F. Tarasenko ;
D. V. Schitz .
Atmospheric and Oceanic Optics, 2012, 25 (2) :176-183
[38]   Effect of Runaway Electrons on the Breakdown of Nanosecond Short Pulse in Atmospheric Air [J].
Li Y. ;
Liu Z. ;
Fu Y. ;
Zou X. ;
Wang X. .
Gaodianya Jishu/High Voltage Engineering, 2023, 49 (12) :5228-5236
[39]   Experimental modeling of atmospheric discharge phenomena and charged dust particle interactions [J].
Abdelaal, Mohamad E. ;
Dokuchaev, Igor. V. ;
Malinovskaya, Elena A. ;
Klimov, Stanislav I. ;
Dolnikov, Genady G. ;
Zakharov, Alexander V. .
FRONTIERS IN ASTRONOMY AND SPACE SCIENCES, 2024, 11
[40]   Observation of hard radiations in a laboratory atmospheric high-voltage discharge [J].
Agafonov, A. V. ;
Bogachenkov, V. A. ;
Chubenko, A. P. ;
Oginov, A. V. ;
Rodionov, A. A. ;
Rusetskiy, A. S. ;
Ryabov, V. A. ;
Shepetov, A. L. ;
Shpakov, K. V. .
JOURNAL OF PHYSICS D-APPLIED PHYSICS, 2017, 50 (16)
12345