Hubble Expansion as an Einstein Curvature

Abstract

Extending the spacetime manifold of general relativity (GR) to incorporate the Hubble expansion of space as a specific curvature, generates a modified solution with three additional non-zero Christoffel symbols and a reformulated Ricci tensor and curvature. The observational consequences of this reformulation are compared with the model for luminosity distance using the extensive type~Ia supernovae (SNe~1a) data with redshift corrected to the CMB, and for angular diameter distance using the recent baryonic acoustic oscillation (BAO) data. For the SNe~1a data, the modified GR and models differ by +0.11-0.15~μB~mag. over zcmb=0.01-1.3, with overall weighted RMS errors of 0.136 μB~mag for modified GR and 0.151 μB~mag for respectively. The BAO measures span a range z=0.106-2.36, with weighted RMS errors of 0.034~Mpc with H0=67.60.25 for the modified GR model, and 0.085~Mpc with H0=70.00.25 for the model. The derived GR metric for this new solution describes both the SNe~1a and the BAO observations with comparable accuracy to the w' model. By incorporating the Hubble expansion of space within general relativity as a specific curvature term, these observations may be described without requiring additional parameters for either dark matter or accelerating dark energy.