Probing gravitational non-minimal coupling with dark energy surveys

Abstract

We investigate observational constraints on a specific one-parameter extension to the minimal quintessence model, where the quintessence field acquires a quadratic coupling to the scalar curvature through a coupling constant . The value of is highly suppressed in typical tracker models if the late-time cosmic acceleration is driven at some field values near the Planck scale. We test in a second class of models in which the field value today becomes a free model parameter. We use the combined data from type-Ia supernovae, cosmic microwave background, baryon acoustic oscillations and matter power spectrum, to weak lensing measurements and find a best-fit value > 0.289 where = 0 is excluded outside the 95 per cent confidence region. The effective gravitational constant G eff subject to the hint of a non-zero is constrained to -0.003 < 1- G eff/G < 0.033 at the same confidence level on cosmological scales, and can be narrowed down to 1- G eff/G < 2.2 × 10-5 when combining with Solar System tests.