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

Global Journal of Science Frontier Research ( A ) XXIV Issue IV Version I Year 2024 34 © 2024 Global Journals Astrophysics of Shadows: The Dead Universe Theory — An Alternative Perspective On The Genesis of the Universe II. T he D ead U niverse T heory H ypotheses The hypotheses of the "Dead Universe" suggest an alternative cosmological model. It explores the origin and evolution of our universe from the chaos of a pre- existing universe. This previous universe would be composed of exotic and hypothetical shadow elements. According to this theory, this "dead universe" would be billions of times larger than our observable universe. It would be mainly composed of dark matter, dark energy, and hypothetical particles such as axions and UNO (A New Order of invisible particles). At the beginning of the Book of Genesis, we find a fundamental description of the universe's creation that offers an interesting perspective on the origin of light relative to darkness: The connection to the Dead Universe Theory is evident: both in theology and science, light emerges as an anomaly in an originally dark and chaotic cosmos. From the perspective of the Dead Universe, the light and energetic activity we observe today (such as in stars and the Sun) can be seen as interruptions in a universe that, in its essence, is inert and somber. This cosmological paradigm proposes that, as in the Genesis account, light is not a constant but an exception — a temporary and anomalous phenomenon in a universe that is, by nature, dark. Two hypotheses are advanced within the framework of the "Dead Universe" theory. Initially, the term "dead" is redefined, transcending the traditional notion of stellar extinction, to denote a universe whose fundamental characteristic since its inception is the intrinsic absence of light. In this model, light is considered a cosmic anomaly arising from fusion and collision events between supermassive bodies within the expanse of a primordial dark universe. Furthermore, this theory asserts that black holes and fusions are not the creators of the universe in which we reside. The first hypothesis postulates that phenomena such as supermassive black holes, dark energy, and dark matter constitute the elementary components of this primordial universe. Interestingly, light appears under specific circumstances, possibly as a byproduct of complex gravitational interactions, acting as a catalyst for the transition to an illuminated cosmos similar to what we observe today. The second hypothesis proposes that an ancestral universe, vastly larger than the currently known cosmos, serves as the final relic for the death that devastated all galaxies and extinguished the light of a once vibrant universe. This predecessor universe could provide crucial evidence of cosmological processes that culminated in the current observable state of the universe. The Dead Universe, in its nature, may be composed of Axion particles and possibly the UNO particle proposed in the article (Almeida, J. (2024) The “Dead Universe” Theory: Natural Separation of Galaxies Driven by the Remnants of a Supermassive Dead Universe. Natural Science, 16, 65-101. doi: 10.4236/ ns.2024.166006.). This perspective proposes an inevitable break from the conventional Big Bang theory, particularly concerning dark matter, the expansion of the universe, and the interpretation of phenomena such as gravitational waves. After the collapse of this vast cosmos, without light and in chaos, matter and light emerged from the darkness as cosmic anomalies. These anomalies compose the primitive reality of this dead universe, characterized by black holes. In its remote origins, this universe exists in a vast darkness where inactivity prevails. However, it still influences phenomena such as the separation of galaxies under the laws of the dead universe. Within this cosmic abyss, complex and highly improbable fusions occurred. These fusions involve interactions between axions, UNO particles, and other exotic components. They were born from extreme conditions and a rare convergence of energies. They resulted in small ruptures in the structure of the dead universe, giving rise to luminous phenomena and the matter we know. These ruptures, though anomalous and limited in scope, were powerful enough to create bubbles of existence. Our observable universe is one of these bubbles, encapsulated within a black hole of this dead universe. These fusions are not simple events but intricate processes that defy conventional laws of physics. They occur in a scenario where the collapse of space-time allows exotic particles to merge in ways that would normally be impossible. The resulting light and matter are seen as byproducts of these anomalous cosmic fusions. They represent exceptions in a predominantly dark and stagnant universe. In essence, these fusions act as resurgence mechanisms within a dead system, where life and light are only brief flashes in a vast sea of darkness. Theories such as the Antiuniverse, Multiverse, Universe as an Information Processor, Big Rip, Big Freeze, Hubble's Theory of Universe Expansion, and even Albert Einstein's Theory of General Relativity depend on the Big Bang model for their support. The Big Bang has served as the foundation for these theories for many years, providing an essential theoretical base.