Marosi, Laszlo A.
June 7, 2017
Cosmic redshift, Hubble constant, energy equilibration, quantum vacuum, cosmic microwave background, diffuse background radiation, energy conservation
In this paper, I reconsider the interpretation of Hubble’s Law as recession velocity of distant galaxies, in association with novel theories of the physical properties of the quantum vacuum, by assuming thermalization of starlight into a homogeneous black-body energy distribution. I present scientific theories and experimental results supporting the assumption that the proposed equilibration process might take place without any material mediator. The equilibration follows from the interaction between quantum states of the excited spacetime entity, and therefore, energy equilibration has to be looked at as a natural quantum physical process, instead of as a physically unlikely one. Cosmological implications of the presented theory are discussed.