Komar integrals for theories of higher order in the Riemann curvature and black-hole chemistry
Tomás Ortı́n
Abstract
A bstract We construct Komar-type integrals for theories of gravity of higher order in the Riemann curvature coupled to simple kinds of matter (scalar and vector fields) and we use them to compute Smarr formulae for black-hole solutions in those theories. The equivalence between f ( R ) and Brans-Dicke theories is used to argue that the dimensionful parameters that appear in scalar potentials must be interpreted as thermodynamical variables ( pressures ) and we give a general expression for their conjugate potentials ( volumes ).
Topics & Concepts
Scalar curvatureCurvatureRiemann hypothesisEquivalence (formal languages)Mathematical physicsScalar (mathematics)PhysicsTheoretical physicsMathematicsPure mathematicsGeometryBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesAdvanced Differential Geometry Research