Local energy-momentum conservation in scalar-tensor-like gravity with generic curvature invariants

Abstract

For a large class of scalar-tensor-like modified gravity whose action contains nonminimal couplings between a scalar field φ(xα) and generic curvature invariants R beyond the Ricci scalar R=Rα\;\;α, we prove the covariant invariance of its field equation and confirm/prove the local energy-momentum conservation. These φ(xα)-R coupling terms break the symmetry of diffeomorphism invariance under a particle transformation, which implies that the solutions of the field equation should satisfy the consistency condition R 0 when φ(xα) is nondynamical and massless. Following this fact and based on the accelerated expansion of the observable Universe, we propose a primary test to check the viability of the modified gravity to be an effective dark energy, and a simplest example passing the test is the "Weyl/conformal dark energy".