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Supersymmetric Mirror Models and Dimensional Evolution of Spacetime
Version 1
: Received: 7 September 2020 / Approved: 10 September 2020 / Online: 10 September 2020 (04:40:06 CEST)
How to cite: Tan, W. Supersymmetric Mirror Models and Dimensional Evolution of Spacetime. Preprints 2020, 2020090218. https://doi.org/10.20944/preprints202009.0218.v1 Tan, W. Supersymmetric Mirror Models and Dimensional Evolution of Spacetime. Preprints 2020, 2020090218. https://doi.org/10.20944/preprints202009.0218.v1
Abstract
A dynamic view is conjectured for not only the universe but also the underlying theories in contrast to the convectional pursuance of single unification theory. As the 4 -d spacetime evolves dimension by dimension via the spontaneous symmetry breaking mechanism, supersymmetric mirror models consistently emerge one by one at different energy scales and scenarios involving different sets of particle species and interactions. Starting from random Planck fluctuations, the time dimension and its arrow are born in the time inflation process as the gravitational strength is weakened under a 1-d model of a “timeron” scalar field. The “ timeron” decay then starts the hot big bang and generates Majorana fermions and U(1) gauge bosons in 2-d spacetime. The next spontaneous symmetry breaking results in two space inflaton fields leading to a double space inflation process and emergence of two decoupled sectors of ordinary and mirror particles. In fully extended 4-d spacetime, the supersymmetric standard model with mirror matter before the electroweak phase transition and the subsequent pseudo-supersymmetric model due to staged quark condensation as previously proposed are justified. A set of principles are postulated under t his new framework. In particular, new understanding of the evolving supersymmetry and Z2 or generalized mirror symmetry is presented.
Supplementary and Associated Material
http://sites.nd.edu/wtan/smm/: list of related papers
Keywords
mirror matter theory; supersymmetry; big bang; unification theory; spacetime
Subject
Physical Sciences, Particle and Field Physics
Copyright: This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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