Cosmology by an inner fractal space topology for an observer and a model of quantum crystallization

New Cosmology 
By Wunderkind Oliver Thewalt


Preprint | Draft | Working Title

Abstract

We model cosmology by a probability distribution model for an a posteriori observation in a Gauß’ian sense as planets and stellar radiation bodies as condensation string zero points, bodies and horizontal radiation phases for beta decay after effects and gamma neutralization.

We apply a random Monte Carlo Simulation Solution for an Euler Beta function for Hadronic Regge trajectories.


We set the observer model by the n-fractal space topological model for the Drifting and rotating energy of Stellar body clusters (Galaxies) and stellar radiation sources.

We deny the existence of 3 spatial dimensions and time in nature.

We propose a quantized inertia for a quantum crystallization model.

We seize the Modelling of Hadrons by the Bootstrap model and the Euler Beta Function.

We set stellar bodies and planets as  Condensation Points in the Crystalline phase of the  quantum crystallization model as Cavity Point Implosion Fields for the crystal QCD Lattice.

We apply a Vortex Field within a  Superfluid to Fluid Transition.

We deny Big Bang Cosmology. The Interpretation of Observations for Red Shift and CMB (Cosmic Microwave Background) is being altered.

We deny a contraction or expension of the universe.

We deny a matter antimatter „symmetry break“. 

We apply a model by quantum optics and Ramanujan’s infinity conjecture.

We introduce a model of a photonic phase transition pulsing.

We deny a constant speed of light in the (relativistic) quantum vacuum

—————-

We defy the model of 3 spatial dimensions and time (4 Vector Space) and set an inner fractal folding of space topology (inner infinity notion of existence in n-fractal dimensional transitions at horizons) for a phase transition.

We set infinity as notion of existence in n-fractal dimensional transitions at horizons for phases of matter and energy to the absolute zero of the superfluid quantum vacuum.

We set the absolute zero of the quantum vacuum as a phase transition point (string Zero point for massless spin 1 states) to the condensation of ordinary white matter in the crystalline phase.

We set the crystalline phase as a space topological insulator by the global density distribution of the Higgs Field for a decelerating superfluid within a perfect fluid.

We set the Region of Neutrality as an entity for a space topological insulator to the Higgs Field.

We set a condensation point for ordinary white matter by superpositional states in cavity vortex fields for a non locality view by space topologically induced entangled states.

We set a cavity vortex field as Zero String cavity implosion points in a decelerating vortex for a decelerating superfluid.

We set the decelerating states of quasi Multitett states of the superfluid as a space topological density variation and granularity for quantum virtuals and string phases.

We deny the existence of 3 spatial dimensions and time in nature.

We apply a Time until Matter view and Post Newtonian Thermodynamics.

We deny quantum gravity and dual gravity.

We alter the view of the Nambu Goto String, the Goddard Goldstone Rabbi Thorn Model for an hadronic string.

We seize the proposal to model an hadronic string by DHS Duality (Dolen  – Horn – Schmid Duality).

We confirm the approach of Gabriele Veneziano for an hadronic string phase model for a QED to QCD model in the Gell Mann- Feynman treatment of the Strong force.

We seize the Modelling of Hadrons by the Bootstrap model and the Euler Beta Function.

We model cosmology by a probability distribution model for a posteriori observations for planets and stellar radiation bodies as condensation string zero points and bodies and horizontal radiation phases for beta decay after effects and gamma neutralization.

We apply a random Monte Carlo Simulaton  Solution for an Euler Beta function for Hadronic Regge trajectories.

We apply a Cartesian Product and knot theory for the superpositional states in the CVF (Cavity Vortex Field) to CVF Transition of a Superstring Model within a decelerating Superfluid as superconducting massless Multitett quantum states and Pairs.

We propose a quantized inertia for a quantum crystallization model.

We apply a Vortex Function for the condensation points as space topological reentry points.

We set stellar bodies and planets as  Condensation Points in the Crystalline phase of the  quantum crystallization model as Cavity Point Implosion Fields for the crystal QCD Lattice.


We apply a Vortex Field within a  Superfluid to Fluid Transition.

We apply the H1 to –H1 transition according to the Higgs Dark Matter Model proposed by Oliver Thewalt and Michael Balmer for a space topological string –e to +e field.

We set the observer model by the n-fractal space topological model for the Drifting and rotating energy of Stellar body clusters (Galaxies) and stellar radiation sources.

We set an observational view for a permanently overturning cosmological perspective and recursive states in a probabilistic model for a posteriori quantum states.

Literature:

Veneziano, Gabriele: Construction of a crossing-simmetric, Regge-behaved amplitude for linearly rising trajectories

https://link.springer.com/article/10.1007%2FBF02824451


Thewalt, Oliver: Inner infinity notion of existence in n-fractal dimensional transitions at horizons

Balmer, Michael: Time Until Matter
https://www.facebook.com/notes/michael-balmer/time-until-matter/646371805474659

Thewalt, Oliver
Balmer, Michael:


The Formation of Elements by assigning charge (E) and Mass (M) to an unused and uncharged Neutron in the Higgs Field

Expansion of the Universe or the imaginary photon – space boundary

First Stars and Reinonization Era

Further Reading


The roots and fruits of string theory

In the summer of 1968, while a visitor in CERN’s theory division, Gabriele Veneziano wrote a paper titled “Construction of a crossing-symmetric, Regge behaved amplitude for linearly-rising trajectories”. He was trying to explain the strong interaction, but his paper wound up marking the beginning of string theory

CERN Courier, November 2018, p. 21 

Nobel Prize in Physics of 2017 awarded to LIGO Black Hole Researchers – An Overview by Oliver Thewalt

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