Derivation of Weinberg's Relation in a Inflationary Universe
Scientific Paper | |
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Title | Derivation of Weinberg\'s Relation in a Inflationary Universe |
Read in full | Link to paper |
Author(s) | Ioannis Iraklis Haranas |
Keywords | Inflationary cosmology, quantum field theory, elementary particle, mass of the pion, cosmological constant |
Published | 2003 |
Journal | Vixra |
Volume | ROAJ 13 and SAO/NASA Astrophy |
Number | 2 |
No. of pages | 7 |
Pages | 111-117 |
Read the full paper here
Abstract
We propose a derivation of the empirical Weinberg relation for the mass of an elementary particle and in an inflationary type of universe. Our derivation produces the standard well known Weinberg relation for the mass of an elementary particle, along with an extra term which depends on the inflationary potential, as well as Hubble's constant. The derivation is based on Zeldovich's result for the cosmological constant Λ, in the context of quantum field theory. The extra term can be understood as a small correction to the mass of the elementary particle due to inflation. This term also enables us to calculate, the initial value of the field φO for two kinds of potentials chosen, which makes Weinberg's relation possible. Closed and flat and open universes give the mass of the particles close to the mass of a pion, 140 MeV/c2 or as the one also predicted by Weinberg's relation.