Periapsis shift in the Zipoy-Voorhees spacetime

Abstract

We study the periapsis shift of timelike bound orbits in the equatorial plane in the Zipoy-Voorhees spacetime, which is an exact, static, axisymmetric, and vacuum solution characterized by the deformation parameter γ, including the Schwarzschild spacetime as γ = 1. We newly derive the formula for the periapsis shift by the post-Newtonian (PN) expansion and show that the quadrupole moment contributes to the periapsis shift apparently as in the 2PN order. Applying this formula to observational data on S2, a star orbiting closely to Sagittarius A* (Sgr A*), we show that the parameter γ is constrained to γ 1.9 × 10-2 for the gravitational field of Sgr A*. This is equivalent to M2 9.7 × 102 in terms of the dimensionless quadrupole moment M2, that is, the supermassive compact object at Sgr A* cannot be very prolate, whereas M2 ≥ -1/3 is required from the solution. Finally, we derive a new series representation in this spacetime using a recently proposed prescription, which shows fast convergence not only in the weak-field regime with not necessarily small eccentricity but also in the strong-field regime with small eccentricity.