Black Holes and Neutron Stars in an Oscillating Universe

“…Crunch is close to the modern distribution of black holes because a population of relic black holes can form from astrophysical black holes that accumulate in the repeating cycles of the Universe [19]. The observed population of black holes consists mainly of SBH from 4 to 100 M [19,34] and SMBH with ∼ 10 5 − 10 10 M located in the centers of galaxies [35].…”

“…where for the estimation it was taken: N = 10 22 [19]; R = 10 7 cm; D ≈ 10 10 ly; a ≈ 3 ly; V ≈ c. We assumed that the relative velocities of black holes in a maximally compressed Universe are comparable to the speed of light. The hypothesis about the accumulation of black holes and GWB from cycle to cycle of the Universe [19] will change the meaning of the parameters in Eq. ( 9), for example, N will mean the sum of GWB sources for a certain number of cycles.…”

“…Our work analyzes the formation of the GWB in a cyclic Universe. The model of an oscillating Universe was popular until the 1980s [2,3,5,15] and now there is a growing interest in this model [16,17,18,19]. The classical cyclic cosmology included a mechanism of the periodical transformation of chemical elements: the effective photodissociation of heavy atomic nuclei into individual baryons began when the temperature of the electromagnetic relic radiation in the compressed Universe reached ∼ 3 * 10 10 K. This is how hydrogen was created to form stars in a new cycle.…”

“…In [19,21,22], a cyclic model of the Universe with a large number of black holes has been analyzed (see Fig. 1).…”

“…The era of multiple merger of black holes begins when the Universe shrinks to a volume comparable to the total volume of existing BHs. This process should be natural for many cyclic models of the Universe [16,17,19,21,22,25]. It is easy to estimate that the total volume of BHs in the Universe is determined by the most massive SMBHs: if we take the average SMBH mass of 10 8 M [12], then 10 11 such holes can be packed into a box with a size of 0.3 ly.…”

Gravitational wave background discovered by NANOGrav as evidence of a cyclic universe

“…Crunch is close to the modern distribution of black holes because a population of relic black holes can form from astrophysical black holes that accumulate in the repeating cycles of the Universe [19]. The observed population of black holes consists mainly of SBH from 4 to 100 M [19,34] and SMBH with ∼ 10 5 − 10 10 M located in the centers of galaxies [35].…”

“…where for the estimation it was taken: N = 10 22 [19]; R = 10 7 cm; D ≈ 10 10 ly; a ≈ 3 ly; V ≈ c. We assumed that the relative velocities of black holes in a maximally compressed Universe are comparable to the speed of light. The hypothesis about the accumulation of black holes and GWB from cycle to cycle of the Universe [19] will change the meaning of the parameters in Eq. ( 9), for example, N will mean the sum of GWB sources for a certain number of cycles.…”

“…Our work analyzes the formation of the GWB in a cyclic Universe. The model of an oscillating Universe was popular until the 1980s [2,3,5,15] and now there is a growing interest in this model [16,17,18,19]. The classical cyclic cosmology included a mechanism of the periodical transformation of chemical elements: the effective photodissociation of heavy atomic nuclei into individual baryons began when the temperature of the electromagnetic relic radiation in the compressed Universe reached ∼ 3 * 10 10 K. This is how hydrogen was created to form stars in a new cycle.…”

“…In [19,21,22], a cyclic model of the Universe with a large number of black holes has been analyzed (see Fig. 1).…”

“…The era of multiple merger of black holes begins when the Universe shrinks to a volume comparable to the total volume of existing BHs. This process should be natural for many cyclic models of the Universe [16,17,19,21,22,25]. It is easy to estimate that the total volume of BHs in the Universe is determined by the most massive SMBHs: if we take the average SMBH mass of 10 8 M [12], then 10 11 such holes can be packed into a box with a size of 0.3 ly.…”

Gravitational wave background discovered by NANOGrav as evidence of a cyclic universe

Basics of modern modeling and expansion of the relativity theory of time in the field of classical physics

Gravitational wave background discovered by NANOGrav as evidence of a cyclic universe