Conical Morris-Thorne Wormholes with a Global Monopole Charge

Abstract

In this paper we have established an asymptotically conical Morris-Thorne wormhole solution supported by anisotropic matter fluid and a global monopole charge in the framework of a 1+3 dimensional gravity minimally coupled to a triplet of scalar fields φa, resulting from the breaking of a global O(3) symmetry. For the anisotropic matter fluid we have considered the equation of state (EoS) given by Pr=ω , with a consequence ω<-1, implying a so-called phantom energy at the throat of the wormhole which violates the energy conditions. In addition, we study the weak gravitational lensing effect using the Gauss-Bonnet theorem (GBT) applied to the wormhole optical geometry. We show that the total deflection angle consists of a term given by 4π2 η2 , which is independent from the impact parameter b, and an additional term which depends on the radius of the wormhole throat b0 as well as the dimensionless constant ζ.