TITLE:
Is Temperature Quenching in the Early Universe Due to Particle Production, Or Quantum Occupation States, Or the Influence of Quantum Teleportation?
AUTHORS:
Andrew Walcott Beckwith
KEYWORDS:
Weak Measurements, Modified HUP, Entropy, Quantum Teleportation
JOURNAL NAME:
Journal of High Energy Physics, Gravitation and Cosmology,
Vol.4 No.1,
January
22,
2018
ABSTRACT:
We examine the role of particle nucleation in the initial universe, and argue
that there is a small effect due to particle nucleation in terms of lowering initial
temperature, in tandem with energy density and scale factor contributions.
If such scaling exists as a major order effect, then quenching of temperature
proportional to a vacuum nucleation at or before the electroweak era is
heavily influenced by a number, n, which is either a quantum number (quantum
cosmology) or a particle count before the electro weak era. If the supposition
is for a particle count, say of gravitons from a prior universe to today’s
universe, initially, we can compare via a thermodynamic argument compared
as to a modified Heisenberg uncertainty principle as to what this says about
particle count information, we have a richer cosmological picture to contend
with. We close with a speculation as to how a quantum teleportation picture
for Pre-Planckian space-time physics may influence our physics discussion.