V. M. Orlovskiĭ scite author profile

This article reports on experimental studies of subnanosecond electron beams formed in air under atmospheric pressure. An electron beam with an amplitude of ∼170 A with a duration at FWHM of ∼0.3 ns has been obtained. Based on beam temporal characteristics and discharge spatial characteristics, the critical fields were supposed to be reached at plasma approach to anode. Simultaneously, the sharp high-energy pulse of e-beam current is generated. Of critical importance is the cathode type and occurrence on the cathode of plasma protrusions. It is shown that to get maximum amplitude of the electron beam in the gas diode, the discharge in the gas diode should be volumetric.

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Electron beam formation in helium at elevated pressures

Alekseev

Orlovskiĭ

Тарасенко

et al. 2003

Tech. Phys. Lett.

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Pulsed volume discharge in a nonuniform electric field at a high pressure and the short leading edge of a voltage pulse

et al. 2004

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Electron beams formed in a diode filled with air or nitrogen at atmospheric pressure

2003

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V. M. Orlovskiĭ

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On formation of subnanosecond electron beams in air under atmospheric pressure

Electron beam formation in helium at elevated pressures

Pulsed volume discharge in a nonuniform electric field at a high pressure and the short leading edge of a voltage pulse

Electron beams formed in a diode filled with air or nitrogen at atmospheric pressure

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