I V Nikitin scite author profile

I V Nikitin

5Publications

43Citation Statements Received

153Citation Statements Given

How they've been cited

How they cite others

141

Affiliations

ITMO University, Mining Institute of the Ural Branch of the Russian Academy of Sciences, Moscow State University

Publications

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On dark stars, Planck cores and the nature of dark matter

Nikitin¹

2021

Preprint

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Dark stars are compact massive objects, described by Einstein gravitational field equations with matter. The type we consider possesses no event horizon, instead, there is a deep gravitational well with a very strong redshift factor. Observationally, dark stars can be identified with black holes. Inside dark stars, Planck density of matter is reached, Planck cores are formed, where the equations are modified by quantum gravity. In the paper, several models of dark stars with Planck cores are considered, resulting in the following hypothesis on the composition of dark matter. The galaxies are flooded with low-energetic radiation from the dark stars. The particle type can be photons and gravitons from the Standard Model, can also be a new type of massless particles. The model estimations show that the extremely large redshift factor z ∼ 10 49 and the emission wavelength λ 0 ∼ 10 14 m can be reached. The particles are not registered directly in the existing dark matter experiments. They come in a density sufficient to explain the observable rotation curves. The emission has a geometric dependence of density on radius ρ ∼ r −2 , producing flat rotation curves. The distribution of sources also describes the deviations from the flat shape. The model provides a good fit of experimental rotation curves. Outbreaks caused by a fall of an external object on a dark star lead to emission wavelength shifted towards smaller values. The model estimations give the outbreak wavelength λ ∼ 1m compatible with fast radio bursts. The paper raises several principal questions. White holes with Planck core appear to be stable. Galactic rotation curves in the considered setup do not depend on the matter type. Inside the galaxy, dark matter can be of hot radial type. At cosmological distances, it can behave like the cold uniform type.

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Tetrafluoroammonium Salts

Nikitin¹,

Rosolovskii²

1985

Russ. Chem. Rev.

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RDM-stars and galactic rotation curves

Nikitin¹

2019

Preprint

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The recently formulated model of black holes coupled to the radial flows of dark matter (RDM-stars) is considered and the shape of the galactic rotation curves predicted by the model is evaluated. Under the assumption that the density of black holes is proportional to the density of luminous matter, the model perfectly fits the experimental data, both for the universal rotation curve, describing the spiral galaxies of a general form, and for the grand rotation curve, describing the orbital velocities of Milky Way galaxy in a wide range of distances. The modeling of the galactic gravitational field at large distances from the center and out of the galactic plane is also discussed.

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Oxygen Fluorides and Dioxygenyl Compounds

Nikitin¹,

Rosolovskii²

1971

Russ. Chem. Rev.

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Electric-Magnetic Duality

Siegel¹,

Zachos²,

Spallucci³

et al. 2004

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I V Nikitin

On dark stars, Planck cores and the nature of dark matter

Tetrafluoroammonium Salts

RDM-stars and galactic rotation curves

Oxygen Fluorides and Dioxygenyl Compounds

Electric-Magnetic Duality

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