Metric for Rotating object in Infrared Corrected Nonlocal Gravity Model

Abstract

Here, we derive the metric for the spacetime around rotating object for the gravity action having nonlocal correction of R-2 R to the Einstein-Hilbert action. Starting with the generic stationary, axisymmetric metric, we solve the equations of motion in linearized gravity limit for the modified action including energy-momentum tensor of the rotating mass. We also derive the rotating metric from the static metric using the Demanski-Janis-Newmann algorithm. Finally, we obtain the constraint on the value of M by calculating the frame dragging effect in our theory and comparing it with that of General Relativity and Gravity Probe B results, where M is the mass scale of the theory.