Physics Letters B (Jul 2016)

Relative information entropy in cosmology: The problem of information entanglement

  • Viktor G. Czinner,
  • Filipe C. Mena

DOI
https://doi.org/10.1016/j.physletb.2016.04.043
Journal volume & issue
Vol. 758, no. C
pp. 9 – 13

Abstract

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The necessary information to distinguish a local inhomogeneous mass density field from its spatial average on a compact domain of the universe can be measured by relative information entropy. The Kullback–Leibler (KL) formula arises very naturally in this context, however, it provides a very complicated way to compute the mutual information between spatially separated but causally connected regions of the universe in a realistic, inhomogeneous model. To circumvent this issue, by considering a parametric extension of the KL measure, we develop a simple model to describe the mutual information which is entangled via the gravitational field equations. We show that the Tsallis relative entropy can be a good approximation in the case of small inhomogeneities, and for measuring the independent relative information inside the domain, we propose the Rényi relative entropy formula.

Keywords