Phase Transition of NLSUSY Space-Time and Unity of Nature

Kazunari Shima; Motomu Tsuda

arXiv:1005.3581·hep-th·May 21, 2010

Phase Transition of NLSUSY Space-Time and Unity of Nature

Kazunari Shima, Motomu Tsuda

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TL;DR

This paper proposes that nonlinear supersymmetric general relativity (NLSUSY GR) can explain the deep connection between the universe's large-scale structure and fundamental particle physics, including dark energy, dark matter, and neutrino mass.

Contribution

It introduces NLSUSY GR as a framework to unify cosmological and particle physics phenomena, providing a novel explanation for their observed relations.

Findings

01

NLSUSY GR links cosmological constants with particle physics parameters.

02

The theory suggests a common origin for dark energy, dark matter, and neutrino mass.

03

It offers a new perspective on SUSY breaking and universe structure.

Abstract

The mysterious relation between the large scale structure of the universe and the tiny (Planck) scale structure of the particle physics, e.g. the observed mysterious relation between the (dark) energy density (and the dark matter) of the universe and the origin of the tiny neutrino mass (and the SUSY breaking mass scale) of the particle physics may be explained simply by the nonlinear supersymmmetric general relativity theory (NLSUSY GR).

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Taxonomy

TopicsCosmology and Gravitation Theories · Computational Physics and Python Applications · Black Holes and Theoretical Physics