Reference Level of the Vacuum Energy Density of the Universe and Astrophysical Data

Haridasu, Balakrishna S.; Cherkas, S. L.; Калашников, В. Л.

doi:10.1002/prop.202000047

Cited by 14 publications

(31 citation statements)

References 101 publications

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“…Using this equation of vacuum state leads to the universe behavior at early times, when the scale factor was small, as freely rolling, i.e., without any deceleration or acceleration. That implies the zero-level deceleration parameter q(a) at small scale factors a [28][29][30][31], as it is shown in Fig. 1 (right panel).…”

Section: Vacuum Energy Problem As a Criterion For Finding The Preferred Reference Framementioning

confidence: 86%

A Vacuum of Quantum Gravity That is Ether.

Cherkas¹,

Калашников²

2021

Preprint

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The fact that quantum gravity does not admit a co-variant vacuum state has far-reaching consequences for all physics. It points out that space could not be empty, and we return to the notion of an ether . Such a concept requires a preferred reference frame for, e.g., universe expansion and black holes. Here, we intend to discuss vacuum and quantum gravity from three essential viewpoints: universe expansion, black holes existence, and quantum decoherence.

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Section: Vacuum Energy Problem As a Criterion For Finding The Preferred Reference Framementioning

confidence: 86%

A Vacuum of Quantum Gravity That is Ether.

Cherkas¹,

Калашников²

2021

Preprint

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“…Other contributors to the vacuum energy density are the terms depending on the derivatives of the universe expansion rate [10,41,42,46]. They have the correct order of magnitude ρ v ∼ M 2 p H 2 , where H is the Hubble constant, and explain the accelerated expansion of the universe driven by the residual energy density and pressure [10,41,42,46]:…”

Section: B Uniform Isotropic and Flat Universementioning

confidence: 99%

“…Eqs. (10) include the number of minimally coupled scalar fields N sc plus two degrees of freedom of the gravitational waves [41]. The massless fermions and photons do not contribute to (10) [41].…”

Section: B Uniform Isotropic and Flat Universementioning

confidence: 99%

“…That is possible because the equations for evolution of the Hamiltonian H and the momentum constraints P admit not only the trivial solution P = 0, H = 0, but also P = 0, H = const. The constant compensates for the main part of the vacuum energy density proportional to the Planck mass in the fourth degree [8,10]. Residual energy density, remaining after omitting the main part of the vacuum energy density, is some kind of dark energy and results in a cosmological picture containing a period of linear evolution in cosmic time [10,11] followed by late accelerated expansion.…”

Section: Introductionmentioning

confidence: 99%

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Vacuum Polarization Instead of “Dark Matter” in a Galaxy

Cherkas

Калашников

2022

Universe

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We considered a vacuum polarization inside a galaxy in the eikonal approximation and found that two possible types of polarization exist. The first type is described by the equation of state p=ρ/3, similar to radiation. Using the conformally unimodular metric allows us to construct a non-singular solution for this vacuum “substance” if a compact astrophysical object exists in the galaxy’s center. As a result, a “dark” galactical halo appears that increases the rotation velocity of a test particle as a function of the distance from a galactic center. The second type of vacuum polarization has a more complicated equation of state. As a static physical effect, it produces the renormalization of the gravitational constant, thus, causing no static halo. However, a non-stationary polarization of the second type, resulting from an exponential increase (or decrease) of the galactic nuclei mass with time in some hypothetical time-dependent process, produces a gravitational potential, appearing similar to a dark matter halo.

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“…That is the unimodular gravity [35][36][37][38][39], which admits an arbitrary cosmological constant. However, under using of the comoving momentums cutoff, the vacuum energy density scales with time as radiation [34], but not as the cosmological constant.…”

Section: Introductionmentioning

confidence: 99%

Eicheons instead of Black holes

Cherkas¹,

Калашников

2020

Phys. Scr.

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A new spherically-symmetric solution for a gravitational field is found in the conformallyunimodular metric. It is shown, that the surface of the black hole horizon in the standard Schwarzschild metric can be squeezed to a point by converting coordinates to the conformally-unimodular metric. In this new metric, there is no black hole horizon, while the naked singularity corresponds to a point massive particle. The reason for the study of this particular gauge (i.e., conformally-unimodular metric) is its relation to the vacuum energy problem. That aims to relate it to other physical phenomena (including black holes), and one could argue that they should be considered in this particular metric. That means the violation of the gauge invariance of the general theory of relativity. As a result, the nonsingular 'eicheons' 4 appear as the non-point compact objects with different masses and structures. They are a final product of the stellar collapse, with the masses exceeding the Tolman-Oppenheimer-Volkoff limit.

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Reference Level of the Vacuum Energy Density of the Universe and Astrophysical Data

Cited by 14 publications

References 101 publications

A Vacuum of Quantum Gravity That is Ether.

A Vacuum of Quantum Gravity That is Ether.

Vacuum Polarization Instead of “Dark Matter” in a Galaxy

Eicheons instead of Black holes

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