Hyperunified field
theory and gravitational gauge-geometry duality.
A support for Quantum FFF string Theory.
by: Yue-Liang Wu
Why a support?
Because Gauge geometry duality is in Quantum FFF String Theory the base for all forces .
the universe need duality to create pressure and attraction forces .
According to Yue-Liang Wu:
"The hyper-spin gauge
field AAB M associated with the bicovariant vector hyper-gravifield χ A M is
taken as the basic force field to realize the hyper-spin gauge symmetry
SP(1,Dh-1).
The
geometry of hyperspacetime is characterized by the hyper-gravimetric field χMN(ˆx) that is determined by the symmetric
Goldstone-like hyper-gravifield χMA(ˆx)
From the
hyper-gravifield fiber bundle structure of biframe hyper-spacetime, the
gravitational interaction has been formulated as the gauge interaction of the
hyper-gravifield χ A M based on the general hyper-spin gauge invariance with
the general gauge massless condition shown in Eq.(205).
We have focused in
this paper mainly on the building of hyperunified field theory from the
bottom-up approach. The basic properties of hyperunified field theory and the
issue on the fundamental mass scale have been discussed within the framework of
QFT, which allows us to derive the gauge gravitational equation with the
conserved hyper-gravifield current and deduce the geometric gravitational
equations of Einstein-like and beyond corresponding to the symmetric and
antisymmetric hyper-stress energy-momentum tensors in hyper-spacetime.
Once a hyperunified
field theory is established, a more sophisticated task is to figure out a
realistic model to describe the real world from the top-down approach.
It is inevitable to
carry out the basic issues, such as: how to realize an appropriate symmetry
breaking mechanism and a reliable dimension reduction to reach the observable
four-dimensional spacetime of the real world; how to reproduce the standard
model with three families of quarks and leptons and explain the observed
matter-antimatter asymmetry and the dark matter component in the present
universe; how to reveal a potential inflationary period of early universe and
understand the observed accelerating expansion of present universe with the
dominant dark energy component"