Entanglement entropy at critical points of classical evolution in oscillatory and exotic singularity multiverse models Articles uri icon

publication date

  • February 2021

issue

  • 4

volume

  • 103

International Standard Serial Number (ISSN)

  • 2470-0010

Electronic International Standard Serial Number (EISSN)

  • 2470-0029

abstract

  • Using the third quantization formalism we study the quantum entanglement of universes created in pairs within the framework of standard homogeneous and isotropic cosmology. In particular, we investigate entanglement quantities (entropy, temperature) around the maxima, minima and inflection points of the classical evolution. The novelty from previous works is that we show how the entanglement changes in an extended minisuperspace parametrized by the scale factor and additionally, by the massless scalar field. We study the entanglement quantities for the universes which classically exhibit big bang and other than big bang (exotic) singularities such as big brake, big freeze, big separation, and little rip. While taking into account the scalar field, we find that the entanglement entropy is finite at the big bang singularity and diverges at the maxima or minima of expansion. As for the exotic singularity models we find that the entanglement entropy or the temperature in all the critical points and singularities is either finite or infinite, but it never vanishes. This shows that each of the universes of a pair is entangled to a degree parametrized by the entanglement quantities which measure the quantumness of the system. Apart from the von Neumann entanglement entropy, we also check the behavior of the Tsallis and the Renyi entanglement entropies, and find that they behave similarly to the meters of the quantumness. Finally, we find that the best-fit relation between the entanglement entropy and the Hubble parameter (which classically marks special points of universe evolution) is of the logarithmic shape, and not polynomial, as one could initially expect.

subjects

  • Mathematics
  • Physics