Concluding this project, most of the objectives have been attained (i) in terms of the construction of models that quantify backreaction having an architecture that goes well beyond currently employed models and simulations, (ii) in terms of the development of advanced statistical methods and their application to a variety of observational data, all showing the limits of the standard model by quantifying the significance of anomalies, e.g. for the deviations from hemispherical isotropy, by matching finite-volume universe models with a better fit to observational data than the standard model could achieve, and through the application of model-independent methods to distance measurements in inhomogeneous cosmologies. Finally, they have been attained (iii) in terms of the development of fully general averaging formalisms of Einstein's equations both for spatial foliations of spacetime and for finite bundles of light rays, together with closure conditions for the resulting hierarchy of averaged equations both through generic modeling strategies and through global topological theorems. As show-cases of the successes of our understanding of inhomogeneity effects, we could provide Dark Energy-free models that simultaneously explain various conundrums of the standard model while matching observational data, and we could provide a quantitative replacement of Dark Matter through emerging curvature during the collapse process of cluster-scale structure.
As a further conclusion, we can envisage new routes and synergies resulting from these outcomes, including the possibility of a knowledge transfer of ARThUs' results to a new research field that heads towards advanced propulsion systems through spacetime engineering, a subject of considerable interest of researchers at space agencies. The ERC PoC project GRAMMAR has been submitted by the PI.
The project resulted in 75 publications, out of which peer-reviewed 46 with on average 30 journal pages each, 3 submitted to peer review, 3 invited papers, 1 book, 1 insight comment, 5 preprints, 3 PhD theses, and 13 internship reports. There are furthermore 9 papers in preparation. These publications are either available in green or gold open access, except the internship reports and the book.