The Variation of G in a Negatively Curved Space-Time

Abstract: Scalar-tensor (ST) gravity theories provide an appropriate theoretical framework for the variation of Newton's fundamental constant, conveyed by the dynamics of a scalar-field non-minimally coupled to the space-time geometry. The experimental scrutiny of scalar-tensor gravity theories has led to a detailed analysis of their post-newtonian features, and is encapsulated into the so-called parametrised post-newtonian formalism (PPN). Of course this approach can only be applied whenever there is a newtonian limit,… Show more

“…where µ is an integration constant. Notice that this solution extends the one referred to as degenerate solutions of class A [43][44][45].…”

“…where the usual 2−d spheres are replaced by pseudo-spheres, dσ 2 = du 2 + sinh 2 u dv 2 , that are surfaces of negative, constant curvature [41][42][43][44] In the presence of the cosmological constant Λ, the general relativistic solution is…”

Extension of Buchdahl’s Theorem on Reciprocal Solutions

“…where µ is an integration constant. Notice that this solution extends the one referred to as degenerate solutions of class A [43][44][45].…”

“…where the usual 2−d spheres are replaced by pseudo-spheres, dσ 2 = du 2 + sinh 2 u dv 2 , that are surfaces of negative, constant curvature [41][42][43][44] In the presence of the cosmological constant Λ, the general relativistic solution is…”

Extension of Buchdahl’s Theorem on Reciprocal Solutions