Cosmological constant, planck mass, hubble mass, and axion: A relation through higher-order loops coleman-weinberg potential with weinberg-landau gauge

Abstract

In this communication, a conformal coupling gravity is discussed in the presence of a complex Coleman-Weinberg potential, which is generated from the contributions from first-, second-, and all higher-order loops. A relation between the cosmological constant, the Hubble mass, and the Higgs vacuum energy is obtained in particular when Weinberg-Landau gauge is used. Moreover, it was observed that the removal of the logarithmic mass boosts the scalar mass from Hubble mass of order 10-33 eV to 2.47 10-3 eV, which is comparable to the mass of non-baryonic cold dark matter or axion based on recent observations and which constitutes about 84% of all matter in the Universe.