Bremsstrahlung of fast electrons in long air gaps

Oreshkin, E. V.; Barengolts, S. A.; Chaikovsky, S. A.; Огинов, А. В.; Шпаков, К. В.; Bogachenkov, V.A.

doi:10.1063/1.3677267

Cited by 21 publications

(13 citation statements)

References 23 publications

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“…Currently the studies of formation and propagation of streamer at breakdown of elevated pressure gases are conducted actively [17][18][19][20][21][22][23][24][25]. The streamer propagation velocity was shown to increase with applied voltage [17][18][19].…”

Section: Introductionmentioning

confidence: 98%

“…In [23] streamer discharge operated at applying two consecutive positive highvoltage pulses to a point-plane gas-filled gap was investigated. The appearance of runaway electrons during streamer propagation was discussed in [24,25]. At REP DD formation, the overlap of many electrons avalanches occurs and an ionization wave with transverse dimensions of the order of a centimeter forms [3,5,8,9].…”

Section: Introductionmentioning

confidence: 99%

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Breakdown features of a high-voltage nanosecond discharge initiated with runaway electrons at subnanosecond voltage pulse rise time

Ломаев¹,

Белоплотов

Тарасенко

et al. 2015

IEEE Trans. Dielect. Electr. Insul.

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In the wide pressure range of the pure nitrogen and sulfur hexafluoride with small admixture of nitrogen (2,5%) the development of the breakdown during the formation of diffuse discharges initiated by runaway electrons and X-Ray was investigated. Nanosecond voltage pulses of both polarities with an amplitude up to ~300 kV and risetime of ~0.5 ns applied across the discharge gap did provide sharply nonuniform electric field distribution. Estimations of average propagation velocity of the ionization wave in the nitrogen and mixture sulfur hexafluoride with nitrogen were performed on the basis of data on dynamics of radiation intensity of the second positive (2 + ) nitrogen system from various regions along of the longitudinal axis of interelectrode gap. Interrelation between the glow dynamics and the local value of the electric field strength has been defined. The results showed that the breakdown is developed in the form of the ionization wave propagating from the potential electrode with the highest concentration of the electric field to the flat-grounded one. In the regions near the grounded electrode practically simultaneous increasing of radiation intensity is registered, that indicates on a possible change of the breakdown mechanism in this part of the discharge gap.Index Terms -Gas discharges, electric breakdown, high-voltage breakdown, ionization wave propagation, spontaneous emission, electric fields.

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Section: Introductionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

Breakdown features of a high-voltage nanosecond discharge initiated with runaway electrons at subnanosecond voltage pulse rise time

Ломаев¹,

Белоплотов

Тарасенко

et al. 2015

IEEE Trans. Dielect. Electr. Insul.

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“…[39][40][41][42] An x-ray flash occurred within about 280 ns from the beginning of the voltage pulse; the flash duration was a few nanoseconds. Its occurrence was associated with the evolution of both cathode-initiated and anode-initiated streamers.…”

mentioning

confidence: 99%

“…The streamer length was measured by the discharge cutoff method, 43 and at the instant that an x-ray flash occurred the characteristic dimensions of the anode-directed streamers were: radius r s no more than 0.5 mm and length L s $ 1.5-2.5 cm. A numerical simulation [40][41][42] has shown that with these streamer dimensions an electron with energy of several electron-volts injected in a gap from the streamer surface can switch in the continuous acceleration mode. For this 043105-2…”

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confidence: 99%

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Simulation of the runaway electron beam formed in a discharge in air at atmospheric pressure

et al. 2012

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The discharge condition to enhance electron density of capacitively coupled plasma with multi-holed electrode Phys. Plasmas 19, 093508 (2012) Atomic gas temperature in a nonequilibrium high-intensity discharge lamp determined from the red wing of the resonance mercury line 254nm J. Appl. Phys. 112, 053304 (2012) Diagnostics development for quasi-steady-state operation of the Wendelstein 7-X stellarator (invited) Rev. Sci. Instrum. 83, 10D730 (2012) Experimental determination of dielectric barrier discharge capacitance Rev. Sci. Instrum. 83, 075111 (2012) Airflow influence on the discharge performance of dielectric barrier discharge plasma actuators Phys. Plasmas 19, 073509 (2012) Additional information on Phys. Plasmas A numerical model is proposed which allows one to describe the dynamics of the fast electrons injected from the head of an anode-directed streamer. The model is based on solving numerically 3-dimensional equations of motion of electrons. In the context of the model, the number of electrons which can be injected from the surface of a streamer is determined by the number of electrons in the Debye layer. Results of numerical calculations show that about 10% of the electrons in the Debye layer are switched to the mode of continuous acceleration. The electrons that have not switched to the runaway mode form a residual space charge cloud, whose dimensions are several centimeters, near a streamer. The space charge screens the streamer tip; therefore, the generation of the runaway electron beam does not resume. V C 2012 American Institute of Physics.

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Registration of X‐rays at 2500 m altitude in association with lightning flashes and thunderstorms

et al. 2014

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Electric fields and high-energy radiation of natural lightning measured at close range from a mountaintop tower are discussed. In none of the 12 negative cloud-to-ground upward flashes were X-rays observed. Also no energetic radiation was found in one negative upward leader at close range (20 m). In the first of two consecutive negative cloud-to-ground flashes, X-rays were detected during the last 1.75 ms of the leader. During the time of energetic radiation in the flash an intense burst of intracloud VHF sources was located by the interferometers. The X-ray production is attributed to the high electric field runaway electron mechanism during leader stepping. Even though the second flash struck closer than the previous one, no X-rays were detected. The absence of energetic radiation is attributed to being outside of the beam of X-ray photons from the leader tip or to the stepping process not allowing sufficiently intense electric fields ahead of the leader tip. High-speed video of downward negative leaders at the time when X-rays are commonly detected on the ground revealed the increase of speed and luminosity of the leader. Both phenomena allow higher electric fields at the leader front favoring energetic radiation. Background radiation was also measured during thunderstorms. The count rate of a particular day is presented and discussed. The increases in the radiation count rate are more coincident with radar reflectivity levels above~30 dBZ than with the total lightning activity close to the site. The increases of dose are attributed to radon daughter-ion precipitation.

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Bremsstrahlung of fast electrons in long air gaps

Cited by 21 publications

References 23 publications

Breakdown features of a high-voltage nanosecond discharge initiated with runaway electrons at subnanosecond voltage pulse rise time

Breakdown features of a high-voltage nanosecond discharge initiated with runaway electrons at subnanosecond voltage pulse rise time

Simulation of the runaway electron beam formed in a discharge in air at atmospheric pressure

Registration of X‐rays at 2500 m altitude in association with lightning flashes and thunderstorms

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