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

of the two regions. Within a magnetic field, Axions could generate a small electric field, creating oscillations in the plasma, similar to tuning a radio to find the correct dark matter frequency. VI. O bservable U niverse The observable universe, which is just the last particles of the dead cosmos, is located inside an immense black hole formed from the death of the dead universe that became an entity without light. It is possible that, upon entering a black hole, our universe's fate is a transition to the "dead universe" — an ancient cosmic structure that interacts with the remaining memories of the cosmos, activated by the death of stars and galaxies under its fundamental laws. Our observable universe, characterized by lights and galaxies, can be seen as a cosmic anomaly, as proposed in the second hypothesis of the Dead Universe Theory. These anomalies result from the initial interaction between Axion particles and UNO particles during the birth of our universe, suggesting that the luminous state in which we exist is an exception in a vastly dark and stagnant cosmos. In the theory of the “Dead Universe,” the observed expansion is not the result of an initial impulse from an explosion, as in the Big Bang, but is seen as a simple distancing of galaxies due to the influence of gravity and other yet-to-be-understood laws emanating from the nature of the “Dead Universe” itself. This movement is interpreted as a manifestation of the intrinsic and residual properties of a cosmos that is no longer active in the traditional sense. In other words, while Hubble’s Law describes what we observe, the theory of the “Dead Universe” attempts to explain why we observe it. It suggests that the unknown laws of the “Dead Universe” may be residual forces or echoes of a previous cosmic reality, which now direct the dynamics of the observable universe. These forces could be different from the known classical gravity and could explain why galaxies continue to move apart even when the original energy of the Big Bang should have dissipated. Therefore, the expansion would not be a sign of continuous growth or birth, but a gradual return to the quiescent and fundamental state of the “Dead Universe”, a final state of rest after the end of anomalies like light and the complex structures that characterize our current universe. Thus, the theory of the “Dead Universe” adds a new layer of understanding to the ultimate fate of the cosmos and offers an intriguing counterpoint to prevailing cosmological theories. VII. D ead U niverse Surrounding the observable universe is the "dead universe," a vast dark region estimated to be a trillion times larger than the visible universe. This universe is predominantly composed of Axion particles, which form dark matter fields, and UNO particles, which are invisible and hypothetical. Stars and planets within this dead universe are formed by dark matter and Axion particles, without emitting luminous radiation, making it completely opaque and dark. The idea is that, upon entering a black hole, we could end up in the dead universe, which is the primordial space from which our observable universe emerged. The "Dead Universe" theory proposes an alternative view to the traditional concept of an expanding or cyclically regenerating universe. Instead of continuously inflating or undergoing processes of rebirth, the universe is thought to be in a prolonged state of decay, possibly lasting for trillions of years. This perspective suggests that the cosmos is actually slowly retracting and gradually losing its vitality. From a scientific standpoint, this theory posits that dead galaxies—those that no longer form new stars and whose stellar fusion processes have ceased—are evidence of a dying universe. These now inactive galaxies represent cosmic remnants that have exhausted their fuel for star creation. The stellar formation process that still occurs in some regions of the universe can be seen as the "last breath" of a declining cosmos, replicating its cosmic memories as its energy slowly dissipates. Supernovae and young stars that still shine in the vast emptiness of the universe are not necessarily signs of vitality but may be understood as remnants of an ancient process, a residual manifestation of what was once a vibrant universe. As time passes, these cosmic events become less frequent, and the universe approaches a state of maximum entropy—where all usable energy is dispersed, and cosmic activity ceases entirely. In this scenario, the universe is not expanding infinitely, but galaxies continue to move away from each other due to the residual influence of the "dead universe" laws. While we still observe the formation of new stars, the universe, in its essence, is in a state of decline compared to its more remote times. Galaxies are dying and gradually fading, and this process of cosmic death intensifies as time progresses. The idea that the universe is "losing its breath" suggests that, instead of a future marked by continuous expansion, we are witnessing the final stages of a cosmos inexorably heading toward its extinction. In this process, all light and movement will eventually cease, resulting in a universe where darkness prevails, marking the silent and complete end of all cosmic activity. This vision contrasts with the idea of a vibrant and growing universe, presenting it instead as an organism in its final breaths, replicating traces of its former vitality before ultimately succumbing to total cosmic inactivity. Global Journal of Science Frontier Research ( A ) XXIV Issue IV Version I Year 2024 40 © 2024 Global Journals Astrophysics of Shadows: The Dead Universe Theory — An Alternative Perspective On The Genesis of the Universe