Conference: TAM2013 - Venice

Submitted by: SARFATTI, Jack

Submitted on: 12 December 2012 00:32

Title: Dark Energy as Redshifted Advanced Wheeler-Feynman Hawking-
  Unruh Thermal Radiation

Abstract content
The observed anti-gravity repulsive dark energy density hc/Lp^2A where A is the area of our observer detector dependent de Sitter future event horizon at its intersection with the detector's future light cone is proved to be the cosmological redshift of the quantum field theoretic energy density hc/Lp^4 on that horizon. The effective redshifted Hawking-Unruh temperature at our detectors is hc/kBLp^1/2A^1/4. The real thermal advanced photons from our future horizon are maximally redshifted down to virtual photons of energy hc/Lp^1/2A^1/4. The calculation may be extended to include ordinary retarded photon signals in our detector's past light cone from Type 1a supernovae because the area A of the future horizon has an asymptote. Larger redshifts should show the cosmic time dependence of A as a test of this model. I suggest that gravity attractive dark matter is a vacuum polarization effect. Therefore, real on-shell exotic dark matter particles do not exist as a matter of principle.

Summary
The observed dark energy density hc/Lp^2A where A is the area of our observer detector dependent de Sitter future event horizon at its intersection with the detector's future light cone is computed from elementary battle-tested physics. In addition, it is predicted that real dark matter particles do not exist as a matter of fundamental principle. Dark matter is a vacuum polarization effect.

Primary Authors:
Dr. SARFATTI, Jack (Internet Science Education Project) <This email address is being protected from spambots. You need JavaScript enabled to view it.>