Betti Functionals as a Probe for Cosmic Topology
Abstract
The question of the global topology of the Universe (cosmic topology) is still open. In the CDM concordance model it is assumed that the space of the Universe possesses the trivial topology of and thus that the Universe has an infinite volume. As an alternative, we study in this paper one of the simplest non-trivial topologies given by a cubic 3-torus describing a universe with a finite volume. To probe cosmic topology, we analyse certain structure properties in the cosmic microwave background (CMB) using Betti Functionals and the Euler Characteristic evaluated on excursions sets, which possess a simple geometrical interpretation. Since the CMB temperature fluctuations are observed on the sphere surrounding the observer, there are only three Betti functionals , . Here denotes the temperature threshold normalized by the standard deviation of . Analytic approximations of the Gaussian expectations for the Betti functionals and an exact formula for the Euler characteristic are given. It is shown that the amplitudes of and decrease with increasing volume of the cubic 3-torus universe. Since the computation of the 's from observational sky maps is hindered due to the presence of masks, we suggest a method yielding lower and upper bounds for them and apply it to four Planck 2018 sky maps. It is found that the 's of the Planck maps lie between those of the torus universes with side-lengths and in units of the Hubble length and above the infinite CDM case. These results give a further hint that the Universe has a non-trivial topology.
Cite
@article{arxiv.2403.09221,
title = {Betti Functionals as a Probe for Cosmic Topology},
author = {Ralf Aurich and Frank Steiner},
journal= {arXiv preprint arXiv:2403.09221},
year = {2024}
}
Comments
9 pages