TITLE:
Part II. How a Tokamak May Allow GW to Be Duplicated in Simulated Values, with Torsion Cosmology and Quantum Number n, and Cosmological Constant from Relic Black Holes
AUTHORS:
Andrew Walcott Beckwith
KEYWORDS:
Cosmological Constant, Torsion, Spin Density, BEC Scaling of Black Hole Physics, Tokamak, Wavefunction of the Universe, Wormholes
JOURNAL NAME:
Journal of High Energy Physics, Gravitation and Cosmology,
Vol.11 No.3,
June
16,
2025
ABSTRACT: We make more specific initial contributions of prior work w.r.t. Tokamaks, relic black holes, and a relationship between a massive graviton particle count and quantum number n, and also add a great more to contributions of our conclusions w.r.t. the wave function of the universe. Our idea for black hole physics being used for GW generation, is using Torsion to form a cosmological constant. Planck sized black holes allow for a spin density term linked to Torsion. In doing so, we review its similarities to frequency values for GW due to a Tokamak simulation. The conclusion of this document will be in bringing up values for an initial wave function of the Universe and an open question as to the applications of a white hole-black hole wormhole bridge between a prior to the present universe as well as a speculation as to particle count, and a quantum number, n, as specified in our document.