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

Image Credits: Global Journals. Source: Global Journals Figure 1: The images in this article were generated using advanced computational technology, specifically designed to visually represent complex astrophysical concepts. Each visualization is crafted through precise algorithms to reflect the intricacies of theories like the "Dead Universe," utilizing specific parameters based on scientific data and theoretical models to ensure the most accurate representation possible within the theoretical context presented On the other hand, the Dead Universe Theory offers an alternative cosmological model that does not rely on the Big Bang as its foundation. It proposes that our current universe is merely a small part of the remnants of a preexisting universe, billions of times larger than the observable universe. This dead universe was primarily composed of a cold mass of exotic elements such as axions, dark matter, dark energy, and UNO particles. The Dead Universe Theory challenges traditional notions and compels us to reconsider the origins of the cosmos from a new perspective. "The cold axion population is produced in the process of axion field relaxation, commonly called vacuum realignment. The key point is that when the axion mass becomes larger than the inverse age of the universe at that time, the axion field is not initially at the minimum of its effective potential. It then begins to oscillate, and since the axion is very weakly coupled, these oscillations do not dissipate into other forms of energy. The energy density in relic axion field oscillations is a form of cold dark matter (Ipser and Sikivie, 1983). In fact, among all widely considered dark matter candidates, axions are the coldest." — Sikivie, Pierre. [1] III. F oundations for an A strophysics of S hadows and the O rigins of the D ead U niverse On the other hand, the Dead Universe Theory directs us to experiments through simulations with greater rigor, especially regarding the new generation of astrophysicists who are working with the support of quantum computing. As a proposed model, the Dead Universe Theory proves adequate and capable of establishing itself solidly on the evidence and observations. These technological advances enable simulations and models that reveal new perspectives on the formation and evolution of the universe. Unlike other theories that face difficulties in reconciling quantum and relativistic concepts, the Dead Universe Theory not only aligns with general relativity and quantum mechanics but also strengthens them. It offers a new view of the universe's expansion and the nature of galaxies, providing a more comprehensive and cohesive explanation for phenomena like the cold spot of the universe that traditional theories cannot fully explain. Recent observations by the James Webb Space Telescope of galaxies that are "dead" provide empirical evidence of a stellar death escalation in the past cosmos, which may support the theory that soon we may discover a universe much larger than the Global Journal of Science Frontier Research ( A ) XXIV Issue IV Version I Year 2024 35 © 2024 Global Journals Astrophysics of Shadows: The Dead Universe Theory — An Alternative Perspective On The Genesis of the Universe