Turbulence and fossil turbulence lead to life in the universe

TL;DR

This paper explores how turbulence and fossil turbulence in the universe influence cosmic structures and possibly life's origins, challenging standard cosmological models by linking turbulence to dark matter and early life formation.

Contribution

It introduces the concept that fossil turbulence explains cosmic phenomena and suggests life originated in turbulent early universe conditions, contradicting standard cosmology.

Findings

Fossil turbulence persists from the universe's beginning.

Dark matter may be composed of frozen hydrogen planets.

Life likely formed in hot-water oceans on early planets.

Abstract

Turbulence is defined as an eddy-like state of fluid motion where the inertial-vortex forces of the eddies are larger than all the other forces that tend to damp the eddies out. Fossil turbulence is a perturbation produced by turbulence that persists after the fluid ceases to be turbulent at the scale of the perturbation. Because vorticity is produced at small scales, turbulence must cascade from small scales to large, providing a consistent physical basis for Kolmogorovian universal similarity laws. Oceanic and astrophysical mixing and diffusion are dominated by fossil turbulence and fossil turbulent waves. Observations from space telescopes show turbulence and vorticity existed in the beginning of the universe and that their fossils persist. Fossils of big bang turbulence include spin and the dark matter of galaxies: clumps of ~ 10^12 frozen hydrogen planets that make globular star clusters as seen by infrared and microwave space telescopes. When the planets were hot gas, they hosted the formation of life in a cosmic soup of hot-water oceans as they merged to form the first stars and chemicals. Because spontaneous life formation according to the standard cosmological model is virtually impossible, the existence of life falsifies the standard cosmological model.