Oscillating Cosmological Solutions in the Modified Theory of Induced Gravity

Abstract: This work is the extension of author’s research, where the modified theory of induced gravity (MTIG) is proposed. In the framework of the MTIG, the mechanism of phase transitions and the description of multiphase behavior of the cosmological scenario are proposed. The theory describes two systems (stages): Einstein (ES) and “restructuring” (RS). This process resembles the phenomenon of a phase transition, where different phases (Einstein’s gravitational systems, but with different constants) pass into each oth… Show more

“…where Λ e f f at the ES stage is expressed, based on the cosmological solutions discussed in previous articles Refs. [7,8]. For the sake of brevity, we will not indicate the arguments of the functions, and the derivative with respect to r will be denoted by ( ).…”

“…In works [7,8], we presented a model in which, due to the oscillatory regime in the solutions of equations, the Hubble parameter also oscillates relative to the average value. In the article [8], we proposed, as a discussion, that for the later evolutionary time, the oscillation amplitudes of the Hubble constant should increase compared to previous times. From a numerical comparison with our various [8] models, it follows that this paradox is better explained by the so-called "stochastic models" (Purusha Universe in [7].…”

“…In the article [8], we proposed, as a discussion, that for the later evolutionary time, the oscillation amplitudes of the Hubble constant should increase compared to previous times. From a numerical comparison with our various [8] models, it follows that this paradox is better explained by the so-called "stochastic models" (Purusha Universe in [7].…”

“…In order to try to solve the above problems and compare them with observations of DE and DM, a phenomenological model of the modified theory of induced gravity (MTIG) was proposed, which is described in our works [7,8,[13][14][15]. In a simplified version of the theory, we made an attempt to introduce a certain macroscopic parameter of the theory Y, which generates both gravitational (G e f f ) and cosmological (Λ e f f ) "constants" [7]:…”

“…where U e f f = U e f f (Y)-effective potential of the theory (note: the definition of U e f f in this article differs from its definition in articles [7,8]); G e f f some function of Y depending on the type of potential U e f f (Y).…”

Dark Matter as a Result of Field Oscillations in the Modified Theory of Induced Gravity

“…where Λ e f f at the ES stage is expressed, based on the cosmological solutions discussed in previous articles Refs. [7,8]. For the sake of brevity, we will not indicate the arguments of the functions, and the derivative with respect to r will be denoted by ( ).…”

“…In works [7,8], we presented a model in which, due to the oscillatory regime in the solutions of equations, the Hubble parameter also oscillates relative to the average value. In the article [8], we proposed, as a discussion, that for the later evolutionary time, the oscillation amplitudes of the Hubble constant should increase compared to previous times. From a numerical comparison with our various [8] models, it follows that this paradox is better explained by the so-called "stochastic models" (Purusha Universe in [7].…”

“…In the article [8], we proposed, as a discussion, that for the later evolutionary time, the oscillation amplitudes of the Hubble constant should increase compared to previous times. From a numerical comparison with our various [8] models, it follows that this paradox is better explained by the so-called "stochastic models" (Purusha Universe in [7].…”

“…In order to try to solve the above problems and compare them with observations of DE and DM, a phenomenological model of the modified theory of induced gravity (MTIG) was proposed, which is described in our works [7,8,[13][14][15]. In a simplified version of the theory, we made an attempt to introduce a certain macroscopic parameter of the theory Y, which generates both gravitational (G e f f ) and cosmological (Λ e f f ) "constants" [7]:…”

“…where U e f f = U e f f (Y)-effective potential of the theory (note: the definition of U e f f in this article differs from its definition in articles [7,8]); G e f f some function of Y depending on the type of potential U e f f (Y).…”

Dark Matter as a Result of Field Oscillations in the Modified Theory of Induced Gravity

Oscillating gravity, non-singularity and mass quantization from Moffat stochastic gravity arguments

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