TITLE:
Examination of h(x) Real Field of Higgs Boson as Originating in Pre-Planckian Space-Time Early Universe
AUTHORS:
Andrew Walcott Beckwith
KEYWORDS:
Inflaton Physics, Modified HUP, Higgs Boson
JOURNAL NAME:
Journal of High Energy Physics, Gravitation and Cosmology,
Vol.3 No.1,
December
20,
2016
ABSTRACT: We initiate working with Peskin and Schroder’s
quantum field theory (1995) write up of the Higgs boson, which has a scalar
field write up for Phi , with “lower
part” of the
spinor having h(x) as a real field, with in spatial
averaging. Our treatment is to look at the
time component of this h(x) as a real field in Pre-Planckian space-time to Planckian Space-time evolution, in a
unitarity gauge specified potential , using a
fluctuation evolution equation of the form which is in
turn using with this
being a modified form of the Heisenberg Uncertainty principle in Pre-Planckian
space-time. From here, we can identify the formation of in the
Planckian space-time regime. The inflaton is based upon Padmanabhan’s treatment
of early universe models, in the case that the scale factor, and t a time factor. The initial value of
the scale factor is supposed to represent a quantum bounce, along the lines of
Camara, de Garcia Maia, Carvalho, and Lima, (2004) as a non zero initial
starting point for expansion of the universe, using the ideas of nonlinear
electrodynamics (NLED). And from there isolating .