Add to ORKGAs the Einstein equations are non-linear, spatial averaging and temporal evolution do not com-mute. Therefore, the evolution of the averaged universe is affected by inhomogeneities. It is, however, highly controversial how large these cosmological backreaction effects are. We use the supernova data of the Constitution set up to a redshift of 0.1 in order to analyse to what extent the measurement of the Hubble constant is affected. The size of the effect depends on the size of the volume that is averaged over. The observational results are then compared to the theory of the backreaction mechanism
One possible explanation for the present observed acceleration of the Universe is the breakdown of h...
We introduce the concept of back-reaction in relativistic cosmological modeling. Roughly speaking, t...
We introduce the concept of back-reaction in relativistic cosmological modeling. Roughly speaking, t...
Seikel M, Schwarz D. Probing Backreaction Effects with Supernova Data. In: PoS Cosmology. 2009: 029...
Li N, Schwarz D. Scale dependence of cosmological backreaction. PHYSICAL REVIEW D. 2008;78(8): 08353...
Due to the non-commutation of spatial averaging and temporal evolution, inhomogeneities and anisotro...
27 pages; new version with a corrected way to compute the redshifts; conclusions remain unchangedInt...
Li N. Cosmological backreaction : from the local Hubble expansion rate to dark energy. Bielefeld (Ge...
Structure occurs over a vast range of scales in the Universe. Our large-scale cosmological models ar...
The backreaction term ${\cal Q}_\CD$ and the averaged spatial Ricci scalar $\average{\CR}$ in the sp...
The non-linearity of Einstein's equations makes it possible for small-scale matter inhomogeneities t...
International audienceCosmological backreaction corresponds to the effect of inhomogeneities of stru...
Abstract The spatially averaged inhomogeneous Universe includes a kinematical backreaction term $${\...
Astronomical observations reveal hierarchical structures in the universe, from galaxies, groups of g...
Includes abstract.Includes bibliographical references.The next generation of telescopes will usher i...
One possible explanation for the present observed acceleration of the Universe is the breakdown of h...
We introduce the concept of back-reaction in relativistic cosmological modeling. Roughly speaking, t...
We introduce the concept of back-reaction in relativistic cosmological modeling. Roughly speaking, t...
Seikel M, Schwarz D. Probing Backreaction Effects with Supernova Data. In: PoS Cosmology. 2009: 029...
Li N, Schwarz D. Scale dependence of cosmological backreaction. PHYSICAL REVIEW D. 2008;78(8): 08353...
Due to the non-commutation of spatial averaging and temporal evolution, inhomogeneities and anisotro...
27 pages; new version with a corrected way to compute the redshifts; conclusions remain unchangedInt...
Li N. Cosmological backreaction : from the local Hubble expansion rate to dark energy. Bielefeld (Ge...
Structure occurs over a vast range of scales in the Universe. Our large-scale cosmological models ar...
The backreaction term ${\cal Q}_\CD$ and the averaged spatial Ricci scalar $\average{\CR}$ in the sp...
The non-linearity of Einstein's equations makes it possible for small-scale matter inhomogeneities t...
International audienceCosmological backreaction corresponds to the effect of inhomogeneities of stru...
Abstract The spatially averaged inhomogeneous Universe includes a kinematical backreaction term $${\...
Astronomical observations reveal hierarchical structures in the universe, from galaxies, groups of g...
Includes abstract.Includes bibliographical references.The next generation of telescopes will usher i...
One possible explanation for the present observed acceleration of the Universe is the breakdown of h...
We introduce the concept of back-reaction in relativistic cosmological modeling. Roughly speaking, t...
We introduce the concept of back-reaction in relativistic cosmological modeling. Roughly speaking, t...