Robinson–Trautman solutions with scalar hair and Ricci flow

Abstract

Abstract The vacuum Robinson–Trautman solution admits a shear-free and twist-free null geodesic congruence with a nonvanishing expansion. We perform a comprehensive classification of solutions exhibiting this property in Einstein’s gravity with a massless scalar field, assuming that the solution belongs at least to Petrov-type II and some of the components of Ricci tensor identically vanish. We find that these solutions can be grouped into three distinct classes: (I-a) a natural extension of the Robinson–Trautman family incorporating a scalar hair satisfying the time derivative of the Ricci flow equation, (I-b) a novel non-asymptotically flat solution characterized by two functions satisfying Perelman’s pair of the Ricci flow equations, and (II) a dynamical solution possessing SO ( 3 ) , ISO ( 2 ) or SO ( 1 , 2 ) symmetry. We provide a complete list of all explicit solutions falling into Petrov type D for classes (I-a) and (I-b). Moreover, leveraging the massless solution in class (I-a), we derive the neutral Robinson–Trautman solution to the N = 2 gauged supergravity with the prepotential F ( X ) = − i X 0 X 1 . By flipping the sign of the kinetic term of the scalar field, the Petrov-D class (I-a) solution leads to a time-dependent wormhole with an instantaneous spacetime singularity. Although the general solution is unavailable for class (II), we find a new dynamical solution with spherical symmetry from the anti-de Sitter (AdS)–Roberts solution via AdS/Ricci-flat correspondence.