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26 results on '"Bannikova, E Yu"'

1. Detection of maser emission at 183 and 380 GHz with ALMA in the gigamaser galaxy TXS2226-184

Author

Tarchi, A., Castangia, P., Surcis, G., Impellizzeri, V., Ladu, E., and Bannikova, E. Yu

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Abridged. The LINER galaxy TXS2226-184 is known to host a very luminous 22 GHz water maser, called a gigamaser at the time of its discovery. To date, the nature of this maser is still being debated, in particular, whether it is associated with a nuclear accretion disk or with an ejection component, namely a jet or an outflow originating in the active galactic nucleus. We obtained multi-band (bands 5, 6, and 7) ALMA observations during Cycle 9, with the purpose of investigating the maser nature and the nuclear molecular material in the innermost region of the galaxy. While the full data sets are still under study, a preliminary data reduction and analysis of the band 5 and 7 spectral line cubes presented in this Letter already offer a significant outcome. We observed bright, possibly maser emission from the water 183 GHz and 380 GHz transitions in TXS2226. To the best of our knowledge, this represents the first unambiguous detection (S/N >= 100) of 380 GHz maser emission in a known 22-GHz maser galaxy, and the first case where all three transitions are present in the same object. Emission features at both frequencies show a two-peaked line profile resembling that of the 22 GHz maser features. The mm/submm emission originates from a region coincident, within the errors, with that of the 22 GHz. The similarities in profile and position indicate that the emission at the three frequencies is likely produced by the same nuclear structure, although differences in line strengths and feature peak positions may hint at a slightly different physical conditions of the emitting gas. A comparison with the few megamaser sources studied at high enough detail and sharing similarities with the water lines in TXS2226 favors a nature associated with the amplification of a bright nuclear continuum (from a jet or outflow) through dense and hot gas in front of the nucleus (e.g., a disk or torus)..., Comment: 5 pages, 4 figures, 1 table, accepted by A&A Letters. Final version after language editing. Added relevant references, and text (abstract and Sect. 4.1) revised accordingly

Published
2024

2. A new kinematic model of the Galaxy: analysis of the stellar velocity field from Gaia Data Release 3

Author

Akhmetov, V. S., Bucciarelli, B., Crosta, M., Lattanzi, M. G., Spagna, A., Fiorentin, P. Re, and Bannikova, E. Yu.

Subjects
Astrophysics - Astrophysics of Galaxies, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

This work presents the results of a kinematic analysis of the Galaxy that uses a new model as applied to the newest available Gaia data. We carry out the Taylor decomposition of the velocity field up to second order for 18 million high luminosity stars (i.e. OBAF-type stars, giants and subgiants) from the Gaia DR3 data. We determine the components of mean stellar velocities and their first and second partial derivatives (relative to cylindrical coordinates) for more than 28 thousand points in the plane of our Galaxy. We estimate Oort's constants $A$, $B$, $C$, and $K$ and other kinematics parameters and map them as a function of Galactocentric coordinates. The values found confirm the results of our previous works and are in excellent agreement with those obtained by other authors in the Solar neighbourhood. In addition, the introduction of second order partial derivatives of the stellar velocity field allows us to determine the values of the vertical gradient of the Galaxy azimuthal, radial and vertical velocities. Also, we determine the mean of the Galaxy rotation curve for Galactocentric distances from 4 kpc to 18 kpc by averaging Galactic azimuths in the range -30$^\circ$ < $\theta$ < +30$^\circ$ about the direction Galactic Centre-Sun-Galactic anticentre. Maps of the velocity components and of their partial derivatives with respect to coordinates within 10 kpc of the Sun reveal complex substructures, which provide clear evidence of non-axisymmetric features of the Galaxy. Finally, we show evidence of differences in the Northern and Southern hemispheres stellar velocity fields., Comment: 19 pages, 14 figures, 2 tables

Published
2023
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3. Analysis of modern astrometric catalogues in the Gaia era

Author

Akhmetov, V. S., Fedorov, P. N., Tsvetkova, V. S., and Bannikova, E. Yu.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We investigate of the systems of proper motions of stars in the ground-based catalogues HSOY, UCAC5, GPS1 and PMA derived by combining with the Gaia DR1 space data. Assuming the systematic differences of stellar proper motions of two catalogues to be caused by the mutual solid-body rotation and glide of the coordinate systems produced by the data of the catalogues under comparison, we analyse the components of the mutual rotation vector and displacement of the origins of these systems. The equatorial components of the vector of mutual rotation velocity of the compared coordinate systems, as well as velocities of the mutual displacement of their origins, varying within the range from 0.2 to 2.9 mas/yr, were derived from a comparison of proper motions of the sources that are common for Gaia EDR3 and the TGAS, UCAC5, HSOY, GPS1 and PMA catalogues, respectively. The systematic errors of proper motions of stars in the HSOY, GPS1, PMA and Gaia EDR3 catalogues in the range of faint stellar magnitudes were estimated by analysing the formal proper motions of extragalactic objects contained in these catalogues. The coordinate system realised by the Gaia EDR3 data at the level of < 0.1 mas/yr is shown to have no rotation and glide relative to the LQAC-5, ALLWISEAGN, Milliquas extragalactis sources within the range from 15 to 21 stellar G magnitude. Among the ground-based catalogues, the system of proper motions of the PMA stars, which is independent of the Gaia EDR3 data, is the closest to the Gaia EDR3 system of proper motions in G magnitude range from 15 to 21.

Published
2021
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4. Dynamical model of an obscuring clumpy torus in AGNs: I. Velocity and velocity dispersion maps for interpretation of ALMA observations

Author

Bannikova, E. Yu., Sergeyev, A. V., Akerman, N. A., Berczik, P. P., Ishchenko, M. V., Capaccioli, M., and Akhmetov, V. S.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We have developed the dynamical model of a clumpy torus in an active galactic nucleus (AGN) and compared to recent ALMA observations. We present $N$-body simulations of a torus in the field of a supermassive black hole (SMBH), made of up to $N=10^5$ gravitationally interacting clouds. As initial conditions, we choose random distributions of the orbital elements of the clouds with a cut-off in the inclination to mimic the presence of wind cones produced at the early AGN stage. When the torus reaches an equilibrium, it has a doughnut shape. We discuss the presence of box orbits. We have then constructed the velocity and velocity dispersion maps using the resulting distributions of the clouds at equilibrium. The effects of torus inclination and cloud sizes are duly analyzed. We discuss the obscuration effects of the clouds using a ray tracing simulation matching the model maps to ALMA resolution. By comparing the model with the observational maps of NGC 1068 we find that the SMBH mass is $M_\text{smbh}=5\times 10^6 M_\odot$ for the range of the torus inclination angles $45^\circ - 60^\circ$. We also construct the velocity dispersion maps for NGC 1326 and NGC 1672. They show that the peaks in the ALMA dispersion maps are related to the emission of the torus throat. Finally, we obtain the temperature distribution maps with parameters that correspond to our model velocity maps for NGC 1068. They show stratification in temperature distribution with the shape of the high temperature region as in the VLTI/MIDI map., Comment: 16 pages, 19 figures, 1 table, accepted for publication in MNRAS

Published
2021
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5. Interpretation of ALMA velocity map for the obscuring torus in NGC1068

Author

Bannikova, E. Yu., Akerman, N. A., and Sergeyev, A. V.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Recent ALMA observations have resolved the obscuring torus in the nearest Sy2 galaxy, NGC1068, in the millimeter band. These observations have confirmed the presence of a geometrically thick torus with an orbital motion of its matter and the velocity distribution which can reflect the clumpy structure. In the framework of N-body simulations we consider a dynamical model of an obscuring torus which accounts for the gravitational interaction between the clouds moving in the field of the central mass. In considered model, clouds are orbiting around the central mass exhibiting a spread in inclination and eccentricity. The self-gravity of the torus induces the velocity distribution of clouds with a global orbital motion which mimics the ALMA data for NGC1068., Comment: 10 pages, 3 figures

Published
2020

7. Distribution of X-ray Emission from Jet Knots of 3C273

Author

Bannikova, E. Yu. and Mykhailova, M. S.

Subjects
Astrophysics
Abstract

The jet of the quasar 3C273 is observed at different spectral bands. This jet has a knot structure. Jet radiation in radio and optical bands are connected with synchrotron mechanism, while the emission mechanism producing the X-rays is controversial. We suppose that the X-rays observed for two knots nearest to the quasar can originate from the inverse Compton scattering of external source radiation on relativistic electrons. But in the jet region with constant low X-ray intensity the inverse Compton scattering on cosmic microwave background photons (IC/CMB) is essential because the energy density of external source decreases. Upon this scenario the constraints on the angle between the jet axis and line sight values have been obtained. Also, some physical parameters for two nearest knots of the jet of 3C273 have been estimated., Comment: Published in Proceedings of the 14th Young Scientists Conference on Astronomy and Space Physics, Kyiv, Ukraine, April 23-28, 2007

Published
2007

8. Frequency Dependence of Radio Images of Supernova Remnants

Author

Karnaushenko, A. V., Bannikova, E. Yu., and Kontorovich, V. M.

Subjects
Astrophysics
Abstract

Radio images of supernova remnants in the framework of diffusion model are discussed. The distribution profiles of synchrotron radiation intensity for spherical injection source of relativistic electrons are reduced at different frequencies. An explanation of the observational data obtained on UTR-2, according to which the size of the supernova remnant at decametric waves is larger than the remnant size at high frequencies, is given., Comment: Published in Proceedings of the 14th Young Scientists Conference on Astronomy and Space Physics, Kyiv, Ukraine, April 23-28, 2007

Published
2007

9. A Supermassive Black Hole or a Compact Object Without Events Horizon ?

Author

Verozub, L. V. and Bannikova, E. Yu.

Subjects
Astrophysics
Abstract

Previously it was shown that gravitation theory allows the existance of supermassive stable compact configurations of the degenerated electronic gas (L.V.Verozub, Astr. Nacr. 317 (1996) 107) without events horizon. In the present paper the simplest model of such kind of objects in gas environment has been considered. It is shown that at the spherically symmetric accretion onto the object the luminosity is about $10^{37} erg/s$ for the mass accretion rate of the order of $\stackrel{\cdot}{M}=10^{-6} M_{\odot}/year$. The wavelength of the radiation maximum is about $400\div 500\stackrel{\circ}{A}$. There is an ionization zone around the central objects with the radius about $10^{-3}pc$., Comment: 7 pages, 3 figures, LaTex209

Published
1998

10. A New kinematic model of the Galaxy: analysis of the stellar velocity field from \emph{Gaia} Data Release 3

Author

Akhmetov, V. S., Bucciarelli, B., Crosta, M., Lattanzi, M. G., Spagna, A., Fiorentin, P. Re, and Bannikova, E. Yu.

Subjects
Astrophysics of Galaxies (astro-ph.GA), FOS: Physical sciences, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Astrophysics - Astrophysics of Galaxies
Abstract

This work presents the results of a kinematic analysis of the Galaxy that uses a new model as applied to the newest available Gaia data. We carry out the Taylor decomposition of the velocity field up to second order for 18 million high luminosity stars (i.e., young OB, giants and subgiants) from the Gaia DR3 data. We determine the components of mean stellar velocities and their first and second partial derivatives (relative to cylindrical coordinates) for more than 28 thousand points in the plane of our Galaxy. We estimate Oort's constants A, B, C, and K and other kinematics parameters and map them as a function of Galactocentric coordinates. The values found confirm the results of our previous works and are in excellent agreement with those obtained by other authors. In addition, the introduction of second order partial derivatives of the stellar velocity field allows us to determine the values of the vertical gradient of the Galaxy azimuthal, radial and vertical velocities. Also, we determine the mean of the Galaxy rotation curve for Galactocentric distances from 4 kpc to 18 kpc by averaging Galactic azimuths in the range -30$^\circ$, 18 pages, 14 figures

Published
2023

21. THE COSMOLOGICAL TEST 'MAGNITUDE-REDSHIFT' FOR SOME MODELS OF GRAVITATIONAL END PHYSICAL VACUUM

Author

Aleksandrov, Yu. V. and Bannikova, E. Yu.

Subjects
lcsh:QB1-991, lcsh:Astronomy, Astrophysics::Cosmology and Extragalactic Astrophysics, equation of state, cosmological test, quasars
Abstract

The cosmological test m(z) has been calculated condition equation of state p = - ε/3 and p = ε. A case p — ε doesn't contradict observational values of m(z) for quasars.

Published
2017

25. Gravitational potential of a homogeneous circular torus: a new approach.

Author

Bannikova, E. Yu., Vakulik, V. G., and Shulga, V. M.

Subjects
*GRAVITATIONAL potential, *APPROXIMATION theory, *MASS (Physics), *INFINITY (Mathematics), *SURFACES (Physics), *QUADRATIC fields, *CONTINUOUS functions
Abstract

The integral expression for the gravitational potential of a homogeneous circular torus composed of infinitely thin rings is obtained. Approximate expressions for the torus potential in the outer and inner regions are found. In the outer region, the torus potential is shown to be approximately equal to that of an infinitely thin ring of the same mass; it is valid up to the surface of the torus. It is shown in a first approximation that the inner potential of the torus (inside a torus body) is a quadratic function of the coordinates. A method of sewing together the inner and outer potentials is proposed. This method provides a continuous approximate solution for the potential and its derivatives, working throughout the region. [ABSTRACT FROM AUTHOR]

Published
2011
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