Abstract
Being convinced in global generalities of Nature’s fundamental principles, phenomena and processes on all cosmic scales, and taking a broad view on the phenomenon of photons’ entanglement, here one postulates the phenomenon of large-scale entanglement of gravitons. This original phenomenon might play a major role in justifying the networks of galaxies and their clusters. The mechanism of entangled gravitons has been likely used by Nature to weave the ‘‘canvas of hypothetic galactic lattice’’. This assumption about the cosmic web could be generalized by Nature for creation of the hypothetical structure—‘‘hyperlattice of metagalaxies of the illusive multiverse’’. The phenomenon of ‘‘entangled gravitons’’ is able to explain the cosmological nature and physical essence of global causality in the Universe, especially the basics of large-scale phase transitions. We also consider the possible input of the ‘‘entangled gravitons’’ phenomenon to the process of transportation of information within Metagalaxy through the systems of black holes and wormholes. It is believed that the broad applications of photons’ and gravitons’ entanglement phenomena may shed light on the axiomatics of Quantum Gravity. The original cosmic quasiparticles, manifested to be based on these phenomena, may track down their possible cosmological role in global cosmological processes of induced breakdown of a SUSY state in the earliest Universe.
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ACKNOWLEDGMENTS
I am grateful to the anonymous reviewer for providing additional articles, and his advice to study and confirm or disprove their possible links with the main idea of this article, also for the requirement to provide additional clarifications in the ‘‘introduction’’, regarding the author’s previous articles, illustrating their possible connections with the EG phenomenon. This article became more representative and presentable due to the strict requirements of the editorial board, for which I express my sincere thanks.
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Avetissian, A.K. Entangled Gravitons? Prospective Original Scenarios in Cosmology. Gravit. Cosmol. 26, 22–28 (2020). https://doi.org/10.1134/S0202289320010028
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DOI: https://doi.org/10.1134/S0202289320010028