📝 SummarXiv

Abstract

We analyze gravitational lensing in a matched Kottler or Schwarzschild--de Sitter (SdS) spacetime, where a uniform-density fluid sphere is smoothly joined to the exterior Kottler solution. We derive analytic expressions for the deflection angle of light rays traversing both regions, isolating the corrections induced by the interior mass distribution relative to the vacuum SdS case. The interior terms systematically reduce the bending angle and tangential magnification while enhancing the radial one, leading to a scale-dependent effect on the total magnification. Numerical evaluation shows a mild amplification for galaxy lenses and a demagnification for clusters, reflecting the contrast between compact and diffuse configurations. The induced $\Lambda$-contribution from the interior corrections further reduces the bending, but only slightly, consistent with its role in the vacuum SdS case. These results demonstrate that lensing observables retain a measurable imprint of interior structure in SdS-like lenses, crucial for refining realistic strong-lensing models.