S. Hotchkiss, S. Nadathur, S. Gottlöber, I. T. Iliev, A. Knebe, W. A. Watson, G. Yepes
Published 2014-05-14, updated 2015-02-07Version 2
We examine the integrated Sachs-Wolfe (ISW) imprint of voids and superclusters on the cosmic microwave background. We first study results from the Jubilee $N$-body simulation. From Jubilee, we obtain the full-sky ISW signal from structures out to redshift $z=1.4$ and a mock luminous red galaxy (LRG) catalogue. We confirm that the expected signal in the concordance \Lambda CDM model is very small and likely to always be much smaller than the anisotropies arising at the last scattering surface. Any current detections of such an imprint must, therefore, predominantly arise from something other than an ISW effect in a \Lambda CDM universe. Using the simulation as a guide, we then look for the signal using a catalogue of voids and superclusters from the Sloan Digital Sky Survey. We find a result that is consistent with the \Lambda CDM model, i.e. a signal consistent with zero.
Comments: Now matches version published in MNRAS last October. Conclusions unchanged
Constraints on $Λ(t)$CDM models as holographic and agegraphic dark energy with the observational Hubble parameter data
Holographic Λ(t)CDM model in a non-flat universe
Constraints on the extensions to the base $Λ$CDM model from BICEP2, Planck and WMAP
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