The Spiral Aspects of Multiverse Formation: Continuous Big Bang and Everyverse Connection

Abstract

The Spiral Multiverse Theory suggests a continuous, spiral pattern universe from the same singularity connected by a common point as everyverse, challenging the conventional Big Bang theory. Every universe starts with a bang. An interdimensional quasar serves as the portal connecting all of the universes to everyverse. Individual universes are connected, but they are observably stable. The theory offers a fresh viewpoint on cosmic evolution and a possible path for practical research by presenting the idea of interdimensional quasars as portals for multiverse travel. The research explores the unique characteristics of the multi-bang process. The study suggests that each universe undergoes its own inflation without observable changes in the cosmic microwave background.

Introduction

I. INTRODUCTION

Our understanding of the universe's origin has been shaped by scientists, which is based on the idea of a singular, explosive origin known as the Big Bang.  The proposition suggests the possibility of multiverse formation in the structure of bubble universes. Assuming each universe originates from a singularity, it implies the existence of pre-existing space with distinct singularities for each universe. This challenges the theory of cosmic nothingness.

The proposed theory proclaims a continuous, repeating pattern of spiral-shaped blasts from a singular point, rejecting the concept of a one-time explosive event in this case. Unlike the disconnected bubble universe, the theory proposes a connection among all universes at the point of singularity blast, forming a network. The multiverse expands in a spiral shape, with the width and length of the arms expanding as the universe expands. The point where all universes connect is labelled as “Everyverse”.

II. EXISTING LITERATURE

Many existing theories which aim to prove the existence of the multiverse have been discussed and studied for our research work. The theories are:

1. Brane Multiverse: According to this theory, the universe is made up of multiple membranes stacked on top of one another to create a larger multiverse. All the membranes have the ability to interact with the membrane universes next to them, which can result in a big bang if two membrane universes collide violently. A new universe may arise as a result of this violent destruction of existing universes.
2. Quilted Universe: The universe is infinite, everything that happens in such a vast area of space will inevitably happen an infinite number of times. According to this theory, one can only see a portion of it because of the limit of light, beyond which are all possible outcomes and possibilities.
3. Simulation Universe: This theory claims that everyone does not actually live in the real physical world, but rather in a simulation. A machine that is capable of performing these computations simulates all the laws and events. This explains why the physical constants and laws of physics are as they are.
4. Ultimate Multiverse hypothesis: This theory suggests that every possible universe variation exists, each with its own unique set of the known laws of physics. The hypothesis takes into account every scenario that could occur and every possible formulation of the laws of physics.
5. Quantum Universe Hypothesis: This theory explains why there are multiple universes since there are an endless number of alternative outcomes. This means that every time an event happens, all of its other possible outcomes also occur concurrently since a new universe is created for every scenario that might possibly occur. This results from the fact that quantum states are superposed, meaning that every possibility exists at once.

Let see components of existing model in the tabular form.

The singularity didn't explode or expand its complete dense state at first expansion. It underwent a continuous expansion that is multiple big bangs (multi bang) forming space and time at the speed of light. This expansion was also spinning. Each spinning expansion formed a spiral pattern. Each expansion underwent its own inflation to form spiral-shaped universes. Each resulted in the same or different set of physical laws or constants. The universe was full of unattached electric charges. The universe glowed. During inflation, while spinning, survived matter-antimatter gets randomly distributed to all spiral arms. This is the reason our universe has asymmetric content of matter-antimatter. Somewhere in another universe, antimatter would be more than matter. LHC proved that matter and antimatter were distributed a trillionth of a second after the Big Bang. 68% dark energy, 27% dark matter, and 5% normal matter in the first ten-tredecillion-ths of seconds after the Big Bang. After the singularity completely released its hot state, the remaining matter from each universe interacted at its starting point. Creating a junction-like singular point which is termed an Everyverse.

Drawing upon the principles from general relativity the curvature of space-time induced by gravitational effect, particularly at extreme scales or energy rules is hypothesized to create a ‘spiral-like’ structure, offering a potential route connecting disparate universes. The spiral universe may or may not be interacting with each other at any other point.  From Figure 1, The multiverse space is expected as a higher-dimensional construct where different universes coexist. After 3,80,000 years the multi-bang, universes cooled to 3000 Kelvin. A hydrogen atom was formed.

V. FUTURE WORK

We can predict the statistical distribution of observable phenomena such as gravitational wave patterns or anomalies in CMB radiation based on this theory. Comparing this prediction with observational data from experiments such as Plank satellites or gravitational wave detectors like LIGO we can test the validity of the theory. Search for specific gravitational wave signatures that could indicate the presence of multi-bang. Look for ways to replicate or simulate the conditions of the early universe in controlled laboratory settings.

VI. LIMITATION

The limitations of this theory are:

1. There are many galaxies, stars, planets, and black holes in a single universe but there will be only one interdimensional quasar in each universe. This could make IQ difficult to be detected.
2. The theory talks about parallel universes. Can't say anything about alternate universes.
3. The theory deals with only space. Nothing about time, time travel, and its flow.

Conclusion

The spiral multiverse theory offers a fresh perspective on how our universe may have originated and evolved. It suggests that our universe is just one of many interconnected universes originating from a single point. If proven true, this theory could change the way everyone perceives the cosmos, leading to new discoveries and insights. It challenges us to rethink our place in the universe and explore mysteries of space.

References

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Copyright

Copyright © 2024 Tejas Shinde. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.