I. Yu. Kalashnikov scite author profile

I. Yu. Kalashnikov

4Publications

15Citation Statements Received

26Citation Statements Given

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Affiliations

Keldysh Institute of Applied Mathematics, Moscow Engineering Physics Institute, Institute for Computer Aided Design

Publications

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Propagation dynamics of successive emissions in laboratory and astrophysical jets and problem of their collimation

Kalashnikov

Chardonnet

Чечеткин

et al. 2018

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This paper presents the results of numerical simulation of the propagation of a sequence of plasma knots in laboratory conditions and in the astrophysical environment. The physical and geometric parameters of the simulation have been chosen close to the parameters of the PF-3 facility (Kurchatov Institute) and the jet of the star RW Aur. We found that the low-density region formed after the first knot propagation plays an important role in the collimation of the subsequent ones. Assuming only the thermal expansion of the subsequent emissions, qualitative estimates of the time taken to fill this area with the surrounding matter and the angle of jet scattering have been made. These estimates are consistent with observations and results of our modeling.

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Influence of dark matter on gravitational stability of isothermal gas clouds

Kalashnikov

Чечеткин

2022

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To date, the presence of dark matter (DM) can be judged only by its gravitational interaction on the visible matter. It is therefore important to find the consequences of this interaction, which can then help to determine both the DM properties and parameters and the dynamics and evolution of visible matter. The gravitational influence of dark matter on the stability of interstellar medium (ISM), the progenitor of stars and star clusters, was considered. An isothermal self-gravity gas was taken as a suitable model describing ISM, particles interacting only gravitationally were considered as DM. The results obtained by analytical methods show that even a small amount of fast DM particles significantly increases the stable radius of the gas cloud and the corresponding mass while a higher relative density of DM destabilizes the gas. It was shown that with typical parameters of ISM and DM, its presence increases the maximum stable mass of isothermal cloud by a factor of four and the radius by five.

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Analytic description of anomalous diffusion in heterogeneous environments: Fokker-Planck equation without fractional derivatives

Likhomanova

Kalashnikov

2020

Phys. Rev. E

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Statistics of the geomagnetic dipole reversals based on paleomagnetic observations and simple geodynamo models

Kalashnikov

Sokoloff

Чечеткин

2015

Izv., Phys. Solid Earth

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I. Yu. Kalashnikov

Propagation dynamics of successive emissions in laboratory and astrophysical jets and problem of their collimation

Influence of dark matter on gravitational stability of isothermal gas clouds

Analytic description of anomalous diffusion in heterogeneous environments: Fokker-Planck equation without fractional derivatives

Statistics of the geomagnetic dipole reversals based on paleomagnetic observations and simple geodynamo models

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