Author(s)

Salwa Al Saleh

Department of Physics and Astronomy, College of Science, King Saud University, Riyadh, Saudi Arabia.

In this paper I have shown that squeezed modified quantum vacua have an effect on the background geometry by solving the semi-classical Einstein Field Equations in modified vacuum. The resultant geometry is similar to (anti) de Sitter spacetime. This geometry could explain the change of causal structure—speed of light—in such vacua without violating diffeomorphism covariance or causality. The superluminal propagation of photons in Casimir vacuum is deduced from the effective electromagnetic action in the resultant curved geometry. Singling between different vacua is shown not to violate causality as well when the geometric effect on the null rays is considered, causing a refraction of those rays when traveling between unbounded and modified vacua.

Casimir Vacuum, Scharmhorst Effect, Quantum Field Theory on Curved Spacetime, Semi-Classical Gravity, Diffeomorphrisim Covarience, Spacetime Micro-Structure

Saleh, S. (2016) Geometric Backreaction of Modified Quantum Vacua and Diffeomorphrisim Covariance. Journal of Modern Physics, 7, 312-319. doi: 10.4236/jmp.2016.73031.