Author(s)

Ivan Nilsen

Insvivia Technologies AS, Hidrasund, Norway.

The Big Bang theory states that the universe was created from pure energy, although matter, in general, is also pure energy and there is no known physical existence that is not pure energy in accordance with the mass-energy equation. All known energy is situated in a field, and it can be questioned whether also the Big Bang was situated in a field in the primordial moment it inflated into the subsequent cosmic expansion that so far lets us observe a 93-billion-light-year-wide spherical volume of the universe. In this study, the Big Bang’s gravitational influence, particularly in the form of an externally radiated gravitational wave, is considered in connection to its situation in a surrounding field with a different expansion rate than itself. The results suggest that the least possible size of the universe can be predicted by the expression of the gravitational wave produced by Big Bang, revealing that the universe has a significantly greater size than the observable, and further that Big Bang might be the production of only one of many cosmic galaxies situated together in a cosmological wave complex (CWC) where the amplitude is self-maintained by inflations.

Gravitational Waves, Big Bang, Inflation, Cosmological Wave Complex, Cosmic Expansion, Dark Energy

Nilsen, I. (2022) The Big Bang Influence in a Cosmological Wave Complex. Journal of High Energy Physics, Gravitation and Cosmology, 8, 1102-1109. doi: 10.4236/jhepgc.2022.84077.