Authors: Karan R.Takkhi
The value of the cosmological constant obtained according to the quantum field theory is 10^120 times greater than the observed small value of the cosmological constant. Such huge discrepancy with the cosmological constant would cause a vacuum catastrophe. Since the discrepancy involved with the cosmological constant is unimaginably very large, therefore, molecular diffusion model has been introduced in this paper as an alternative to dark energy in order to explain the accelerated expansion of the Universe. The molecular diffusion model considers the distribution of large-scale structures as molecules inside a vacuum chamber. Since large-scale structures are ensemble of atoms, therefore, they can be treated as molecules possessing finite amount of energy. Instead of considering that space is expanding, the paper emphasizes upon the actual recession of large-scale structures. Since the discrepancy involved with the cosmological constant is very large, therefore, instead of considering that empty space possesses energy, it would be much more prudent to consider that large-scale structures possess energy by the virtue of which they recede, quite similar to a molecule that recedes by the virtue of energy that it possesses, after all, “the diffusion or free expansion of gas molecules inside a vacuum chamber by the virtue of vacuum energy or dark energy” has never been heard of; such claim, if true, would only suggest that gas molecules do not possess any energy. The study conducted in this paper finds the recessional behaviour of large-scale structures to be consistent with the recessional behaviour of molecules, thereby proving the molecular diffusion model.
Comments: 18 pages, 16 tables, 5 graphs, 2 figures (Manuscript was submitted to journal of astrophysics and astronomy. Manuscript was rejected without providing any reason. "Reviewers' comments: Reviewer #1: It is totally baseless work.")
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