Leonid Beilin scite author profile

The results of recent experimental and numerical studies of nanosecond high-voltage discharges in pressurized gases are reviewed. The discharges were ignited in a diode filled by different gases within a wide range of pressures by an applied pulsed voltage or by a laser pulse in the gas-filled charged resonant microwave cavity. Fast-framing imaging of light emission, optical emission spectroscopy, x-ray foil spectrometry and coherent anti-Stokes Raman scattering were used to study temporal and spatial evolution of the discharge plasma density and temperature, energy distribution function of runaway electrons and dynamics of the electric field in the plasma channel. The results obtained allow a deeper understanding of discharge dynamical properties in the nanosecond timescale, which is important for various applications of these types of discharges in pressurized gases.

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Fast-Framing Optical Imaging of Plasma Formation in Resonant Microwave Pulse Compressor

Beilin

Shlapakovski

Donskoy

et al. 2014

IEEE Trans. Plasma Sci.

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Plasma density temporal evolution in a high-power microwave pulse compressor switch

Beilin¹,

Shlapakovski²,

Donskoy³

et al. 2015

EPL

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Time-resolved optical-emission spectroscopy measurements are used to evaluate plasma density in an interference switch during the extraction of a nanosecond output pulse from a high-power microwave compressor. The compressor represents a resonant cavity connected to an H-plane waveguide tee with a shorted side arm filled with helium at a pressure of 2 • 10 5 Pa; the plasma discharge in the tee side arm is triggered by a Surelite laser. A nanosecond-scale dynamics of the plasma density is obtained by analyzing the shape of the helium spectral lines. The analysis of the experimental data evidences a correlation between the rise time of the plasma density and the peak power of the microwave output pulse. Numerical simulations of the microwave energy release from the cavity with the appearance of the plasma yield results in good agreement with the measured output pulse peak power and waveform.

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Operation of a Microwave Pulse Compressor With a Laser-Triggered Plasma Switch at Different Laser Beam Directions

Shlapakovski

Beilin

Hadas

et al. 2015

IEEE Trans. Plasma Sci.

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A resonant microwave pulse compressor with laser triggering of the plasma discharge in its switch was studied for the influence of the unfocused laser beam direction with respect to the RF electric field. The compressor was realized as a rectangular waveguide-based cavity connected to an H-plane waveguide tee with a shorted side arm filled with pressurized helium and pumped by a conventional pulsed S-band magnetron. It was found that neither the direction, nor the intensity of the laser beam significantly affect the compressor output pulse peak power and waveform. Meantime, the delay between the moment of plasma discharge initiation and the appearance of the microwave output is shorter and the time jitter for this delay is smaller if the laser beam is directed along the RF electric field. The same effect was observed when increasing the intensity of the laser beam. Time-resolved optical emission spectroscopy was used to evaluate the plasma density, and numerical simulations of the RF energy release from the system with the appearance of plasma showed a good agreement with the experimentally obtained characteristics of the plasma and microwave output pulse. Index Terms-Laser triggering, microwave pulse compression, plasma switch. Leonid Beilin received the B.Sc., M.Sc., and Ph.D. degrees in physics from the Technion-Israel Institute of Technology (Technion), Haifa, Israel, in 2006, 2010, and 2015, respectively. His Ph.D. research focused on nanosecond timescale plasma formation in the presence of highintensity electromagnetic field with the Plasma and

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Leonid Beilin

Diffusion of cold-atomic gases in the presence of an optical speckle potential

Recent studies on nanosecond-timescale pressurized gas discharges

Fast-Framing Optical Imaging of Plasma Formation in Resonant Microwave Pulse Compressor

Plasma density temporal evolution in a high-power microwave pulse compressor switch

Operation of a Microwave Pulse Compressor With a Laser-Triggered Plasma Switch at Different Laser Beam Directions

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