Jacob Moldenhauer, Mustapha Ishak, John Thompson, Damien A. Easson
Published 2010-04-14Version 1
We consider recently proposed higher order gravity models where the action is built from the Einstein-Hilbert action plus a function f(G) of the Gauss-Bonnet invariant. The models were previously shown to pass physical acceptability conditions as well as solar system tests. In this paper, we compare the models to combined data sets of supernovae, baryon acoustic oscillations, and constraints from the CMB surface of last scattering. We find that the models provide fits to the data that are close to those of the LCDM concordance model. The results provide a pool of higher order gravity models that pass these tests and need to be compared to constraints from large scale structure and full CMB analysis.
Comments: 11 pages, 4 figures
Journal: Phys.Rev.D81:063514,2010
Confronting the damping of the baryon acoustic oscillations with observation
Baryon Acoustic Oscillations in 2D II: Redshift-space halo clustering in N-body simulations
Non-linear Evolution of Baryon Acoustic Oscillations from Improved Perturbation Theory in Real and Redshift Spaces
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