V. B. Krasovitskiy scite author profile

V. B. Krasovitskiy

5Publications

13Citation Statements Received

88Citation Statements Given

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Affiliations

Keldysh Institute of Applied Mathematics, Texas A&M University, Russian Academy of Sciences

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Pulsed rotating supersonic source for merged molecular beams

Sheffield

Hickey

Krasovitskiy

et al. 2012

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We describe a pulsed rotating supersonic beam source, evolved from an ancestral device [M. Gupta and D. Herschbach, J. Phys. Chem. A 105, 1626 (2001)]. The beam emerges from a nozzle near the tip of a hollow rotor which can be spun at high-speed to shift the molecular velocity distribution downward or upward over a wide range. Here we consider mostly the slowing mode. Introducing a pulsed gas inlet system, cryocooling, and a shutter gate eliminated the main handicap of the original device, in which continuous gas flow imposed high background pressure. The new version provides intense pulses, of duration 0.1-0.6 ms (depending on rotor speed) and containing ~10 12 molecules at lab speeds as low as 35 m/s and ~ 10 15 molecules at 400 m/s. Beams of any molecule available as a gas can be slowed (or speeded); e.g., we have produced slow and fast beams of rare gases, O 2 , Cl 2 , NO 2 , NH 3 , and SF 6 .For collision experiments, the ability to scan the beam speed by merely adjusting the rotor is especially advantageous when using two merged beams. By closely matching the beam speeds, very low relative collision energies can be attained without making either beam very slow.

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Nonlinear dispersion of resonance extraordinary wave in a plasma with strong magnetic field

Krasovitskiy

Turikov

Sotnikov

2007

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In this paper, the efficiency of electron acceleration by a short, powerful laser pulse propagating across an external magnetic field is investigated. Conditions for the decay of a laser pulse with frequency close to the upper hybrid resonance frequency are analyzed. It is also shown that a laser pulse propagating as an extraordinary wave in cold, magnetized, low-density plasma takes the form of a nonlinear wave with the modulated amplitude (envelope soliton). Finally, simulation results on the interaction of an electromagnetic pulse with a semi-infinite plasma, obtained with the help of an electromagnetic relativistic PIC code, are discussed and a comparison with the obtained theoretical results is presented.

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Stochastic heating of electrons by a large-amplitude extraordinary wave in plasma

Krasovitskiy

Turikov

2010

Plasma Phys. Rep.

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Nonlinear Right-Hand Polarized Wave in Plasma in the Electron Cyclotron Resonance Region

Krasovitskiy

Turikov

2018

Plasma Phys. Rep.

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Electromagnetic wave in a relativistic magnetized plasma

Krasovitskiy

2009

Plasma Phys. Rep.

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V. B. Krasovitskiy

Pulsed rotating supersonic source for merged molecular beams

Nonlinear dispersion of resonance extraordinary wave in a plasma with strong magnetic field

Stochastic heating of electrons by a large-amplitude extraordinary wave in plasma

Nonlinear Right-Hand Polarized Wave in Plasma in the Electron Cyclotron Resonance Region

Electromagnetic wave in a relativistic magnetized plasma

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