Effective scalar-tensor description of regularized Lovelock gravity in four dimensions
Tsutomu Kobayashi
Abstract
We reformulate the recently proposed regularized version of Lovelock gravity in four dimensions as a scalar-tensor theory. By promoting the warp factor of the internal space to a scalar degree of freedom by means of Kaluza-Klein reduction, we show that regularized Lovelock gravity can be described effectively by a certain subclass of the Horndeski theory. Cosmological aspects of this particular scalar-tensor theory are studied. It is found that the background with a scalar charge is generically allowed. The consequences of this scalar charge are briefly discussed.
Topics & Concepts
PhysicsScalar (mathematics)Theoretical physicsGravitationSpace timeScalar theories of gravitationCharge (physics)Scalar fieldf(R) gravityMathematical physicsCosmologyClassical mechanicsSpace (punctuation)SpacetimeDark energyDegrees of freedom (physics and chemistry)Cosmological modelParameter spaceScalar potentialFormalism (music)Cosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsNoncommutative and Quantum Gravity Theories