Revealing the Mystery of Dark Energy: Is It a Local Phenomenon or Ubiquitous?

Introduction to Dark Terminology

Our astronomical investigations often employ the term 'dark,' which acts as a catch-all for phenomena that remain unexplained. Dark energy and dark matter are prime examples, encapsulated under this umbrella term. However, the use of this term as a placeholder can sometimes obscure the complexities and differences between various dark phenomena. Just as different scientists might mistakenly identify asteroids, clouds, or stars as 'dark matter,' we must scrutinize these assumptions and unravel the true nature of these mysterious forces.

The Problem of Dark Matter and Dark Energy

The search for solutions to the riddles of dark matter and dark energy appears to be an intricate puzzle with few pieces in place. For instance, the concept of dark energy was born from the observation that the expansion of the universe is accelerating. Despite extensive research, direct evidence for dark energy remains elusive, leading some to propose that the solution might lie outside the boundaries of our universe itself.

Alternative Explanation: Pre-Big Bang Masses

A new paradigm suggests that the universe is not alone. It is one of 12 universes, each surrounded by four pre-big bang masses that are themselves part of a diamond-like structure. This theory proposes that the acceleration in the universe's expansion, previously attributed to dark energy, is actually a result of the gravitational force exerted by these pre-big bang masses. This gravitational force, a well-known physical phenomenon, might be the real explanation for the observed expansion rate, rather than an unexplained dark energy.

Key Unexplained Phenomena Addressed

According to this theory, five key unexplained phenomena can be explained:

Acceleration in the Expansion Rate:The observed acceleration is attributed to the gravitational pull of the pre-big bang masses outside our universe. Dark Matter:The effect of the 4 pre-big bang masses and the outer 12 universes on our own can be detected, but this matter is too far away to be directly tested. Consequently, it is termed as dark matter. Biggest Void in the Universe:The distribution of galaxies in our universe is affected by the gravitational forces from pre-big bang masses, leading to the formation of voids. Cosmic Microwave Background (CMB):The CMB is not leftover light but is actually coming from the outer universes and having been affected by gravitational forces to become microwave radiation. Formation of Galaxies Too Soon After the Big Bang:The formation of galaxies before the big bang suggests that galaxies from other universes falling onto the pre-big bang masses initiated the event.

Conclusion and Further Inquiry

This theory challenges our conventional understanding of the universe's expansion and composition, proposing an alternative explanation beyond dark energy and dark matter. While this model seems promising, it invites scientific discussion and further inquiry. Whether the universe is pushed by dark energy or pulled by gravitational forces from pre-big bang masses, such theories continue to reshape our understanding of the cosmos. Join the scientific community in exploring these mysteries by sharing your thoughts in the comments below.