lobal Journal of Science Frontier Research, A: Physics and Space Science, Volume 24 Issue 4

Moreover, the interaction between UNO and the axion could provide insights into the nature of dark matter. The axion, being a lightweight and weakly interacting particle, may have emerged as a byproduct of UNO's symmetry breaking. Thus, while the Higgs Field explains how conventional particles acquire mass, UNO could explain the origin of dark matter particles like the axion. This approach connects UNO and the axion as fundamental elements in the creation of the universe, with the axion acting as a crucial intermediary in the transition from absolute nothingness to the universe filled with matter and energy that we know. Today, we know of the existence of supermassive bodies, black holes composed of mass billions of times greater than the Sun. It seems to us that the dead universe calls our universe to its strange origins, beyond our telescopes. The existence of such massive and enigmatic phenomena challenges our understanding of physics and suggests that the laws governing these objects may be radically different from those operating in known particle physics. The "dead universe" theory, let us consider the hypothesis that the fundamental laws of physics may have been different at the beginning of the universe. This could explain the predominance of dark matter and dark energy, which are almost completely imperceptible through our traditional observation methods, but clearly exert a massive influence on the structure and expansion of the universe. These primitive conditions may have given rise to a "shadow astrophysics," a theoretical branch that studies celestial bodies and phenomena that operate primarily through non-luminous interactions. This would include not only dark matter planets and dark stars but also nebulas and entire galaxies composed of these invisible forms of matter and energy, which could form the vast majority of the universe." "Dark stars and their undetectable radiation: As mentioned, "dark stars" may be dead celestial bodies that, unlike normal stars that emit light due to nuclear fusion, emit forms of radiation or interact with common matter in ways that we cannot currently detect directly. These stars could emit 'dark light or dark radiation,' a form of energy that is not visible to our current instruments, but could be detectable through gravitational effects or by new technologies that capture different types of electromagnetic or gravitational interactions. Modified Gravity Laws: The laws of gravity in regions dominated by dark matter could be radically different. This could explain the anomalous movement patterns in galaxies and galaxy clusters that we observe, which do not align with predictions based on Newtonian gravity or Einstein's general relativity. Theories such as modified gravity (MOG), loop quantum gravity, or emerging gravity theories could offer better models for understanding these phenomena. Connection with Cosmology and Metaphysics: The "dead universe" theory also paves the way for a new cosmology that is both a science and a metaphysics, questioning the very concept of "existence" and "reality." The idea that the original dead state of the universe was of total darkness, with light and matter as later and secondary developments, radically challenges our preconceived notions about the cosmos and our position within it. Impact on Philosophy and Religion: Finally, this theory may have profound philosophical and theological implications. If the primordial universe was of total darkness, as proposed in Genesis, and light was an anomaly, this could suggest that the creation and emergence of light (as described in religious texts) represent an act of transformation by God and His revelation to allow the existence of life, where the divine not only creates order from chaos but also infuses the essence of being — light, heat, and energy — into a cosmos that would otherwise be a dark and formless void. Cyclic Cosmology: This does not exist, nor does the concept of the multiverse; the "dead universe" may represent only an initial phase in the cosmos' life that will reduce to a complete death. According to this view, the universe may also alternate between periods of luminous explosion, like the Big Bang, and long periods of darkness dominated by dark matter and dark energy on its path to its final cosmic coffin. Dark Matter as the Universe's Substrate: Expanding the notion of dark matter as the main constituent of the universe, we could explore the idea that it acts as a substrate in which visible matter and energy emerge and interact temporarily. In this sense, dark matter would not just be a passive entity but an active source of potential that defines the structure and dynamics of the universe on a large scale. Dark Energy and the Recession of Galaxies: Dark energy and the gravity laws of the dead universe, which are responsible for the acceleration of the galaxies' recession since there is no expansion of the universe, could be seen as a mechanism by which the universe prepares for a transition back to the "dead universe" state. Instead of being merely a repulsive force, dark energy could be interpreted as an indicator that the universe is degenerating into its total mummification." Recent research by Dmitry Levkov has reshaped our understanding of the cosmos, introducing the notion of "dark matter stars," or "axion stars," as they are also known, that behave like colossal atoms. This innovative concept offers an impressive parallel to the "dead universe" theory. It is hypothesized that these axion stars are scattered throughout the dead universe, potentially explaining the mysterious dark matter that Global Journal of Science Frontier Research ( A ) XXIV Issue IV Version I Year 2024 43 © 2024 Global Journals Astrophysics of Shadows: The Dead Universe Theory — An Alternative Perspective On The Genesis of the Universe