On the Mass of a Universe with a Quantum String-Like Beginning
arXiv:physics/0606138
Abstract
In this paper the mass of a universe, which began as a gravitationally closed, maximally spinning, Planck density quantum string is derived. A universe beginning in such an initial state has been called a Super Spin Model universe. The total mass, M, of the Super Spin Model universe is shown to be a function of only four fundamental parameters \hbar, c, G, e, such that: M = Ï2(\hbar c/G)1/2exp(\hbar c/e2). The present paper primarily consists of a brief derivation of the above equation and a short synopsis of the Super Spin Model. Keywords: Planck, primaton, geon, Kerr, string, cosmology, super spin model, unification, gravitation, rotating universe, non-stationary, axi-symmetric, space-time, event horizon.
Presented at the 32nd Coral Gables Conference, on The Launching of the Belle Epoque in High Energy Physics and Cosmology, Ft. Lauderdale, Fl., December 21, 2003, 10 Pages, 3 Figures