Supersymmetric Mirror Models and Dimensional Evolution of Spacetime

@inproceedings{Tan2020SupersymmetricMM,
  title={Supersymmetric Mirror Models and Dimensional Evolution of Spacetime},
  author={Wanpeng Tan},
  year={2020}
}
  • W. Tan
  • Published 12 February 2020
  • Physics
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… 

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References

SHOWING 1-10 OF 33 REFERENCES

Mirror baryons as the dark matter.

  • Hodges
  • Physics
    Physical review. D, Particles and fields
  • 1993
The cosmological abundance of mirror particles is investigated after a period of chaotic inflation and subsequent reheating and it is found that mirror and ordinary abundances may naturally be similar at the present epoch, and that mirror baryons can provide the closure density without violating nucleosynthesis constraints.

From neutron and quark stars to black holes

New physics and models for the most compact astronomical objects - neutron / quark stars and black holes are proposed. Under the new supersymmetric mirror models, neutron stars at least heavy ones

Kaon oscillations and baryon asymmetry of the Universe

  • W. Tan
  • Physics
    Physical Review D
  • 2019
Baryon asymmetry of the universe (BAU) is naturally explained with $K^0-K^{0'}$ oscillations of a newly developed mirror-matter model and new understanding of quantum chromodynamics (QCD) phase

The shadow world of superstring theories

Recent attempts to construct a superstring theory that unifies all the interactions of nature, including gravity, in a finite anomaly-free quantum theory have led to the speculation that there may

Possible Astronomical Effects of Mirror Particles

A discussion is given of the astronomical implications of a model wherein every elementary particle would have a corresponding mirror (M-) particle of the same mass, and to each interaction (strong,

Mirror Symmetry

We prove mirror symmetry for supersymmetric sigma models on Kahler manifolds in 1+1 dimensions. The proof involves establishing the equivalence of the gauged linear sigma model, embedded in a theory

Neutron oscillations for solving neutron lifetime and dark matter puzzles

  • W. Tan
  • Physics
    Physics Letters B
  • 2019

SU(3) sphaleron: Numerical solution

We complete the construction of the sphaleron $\widehat{S}$ in $SU(3)$ Yang-Mills-Higgs theory with a single Higgs triplet by solving the reduced field equations numerically. The energy of the

New approach to collective phenomena in superconductivity models

A new approach to collective phenomena in superconductivity models is presented. In this approach nonlinear spinor models are converted into equivalent theories involving fermions and collective

Neutron-mirror neutron oscillations for solving the puzzles of ultrahigh-energy cosmic rays

Based on a newly proposed mirror-matter model of neutron-mirror neutron ($n-n'$) oscillations, the puzzles related to ultrahigh-energy cosmic rays (UHECRs) are explained. In particular, the phenomena