Solar system constraints on asymptotically flat IR modified Horava gravity through light deflection

Abstract

In this paper, we study the motion of photons around a Kehagias-Sfetsos (KS) black hole and obtain constraints on IR modified Horava gravity without cosmological constant ( W). An analytic formula for the light deflection angle is obtained. For a propagating photon, the deflection angle δ φ increases with large values of the Horava gravity parameter ω. Under the UV limit ω ∞, deflection angle reduces to the result of usual Schwarzschild case, 4GM/R. It is also found that with increasing scale of astronomical observation system the Horava-Lifshitz gravity should satisfy |ω M2|>1.1725 ×10-16 with 12% precision for Earth system, |ω M2| > 8.27649 × 10-17 with 17% precision for Jupiter system and |ω M2| > 8.27650× 10-15 with 0.17% precision for solar system.