Particle astrophysics in nonlinear supersymmetric general relativity

TL;DR

This paper explores how nonlinear supersymmetric general relativity (NLSUSY GR) can connect the universe's large-scale structure with particle physics, potentially explaining dark energy, dark matter, neutrino mass, and SUSY breaking.

Contribution

It proposes that NLSUSY GR offers a novel framework linking cosmological phenomena with particle physics, especially before the Big Bang.

Findings

NLSUSY GR suggests a relation between dark energy and dark matter.

It indicates a connection between neutrino mass and SUSY breaking scale.

Provides new insights into early universe physics and low energy particle physics.

Abstract

An explanation of relations between the large scale structure of the universe and the tiny 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 neutrino mass and the SUSY breaking mass scale of the particle physics may be given by the nonlinear supersymmmetric general relativity (NLSUSY GR). NLSUSY GR shows that studying the physics before/of the Big Bang of the universe may be significant and may give new insight to unsolved problems of the low energy particle physics, cosmology and their relations.