1. Mass Reconstruction of Galaxy-scale Strong Gravitational Lenses Using a Broken Power-law Model
- Author
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Wei Du, Liping Fu, Yiping Shu, Ran Li, Zuhui Fan, and Chenggang Shu
- Subjects
Strong gravitational lensing ,Gravitational lensing ,Galaxy mass distribution ,Einstein rings ,Galaxy dark matter halos ,Galaxy dynamics ,Astrophysics ,QB460-466 - Abstract
With mock strong gravitational lensing images, we investigate the performance of the broken power-law (BPL) model proposed by Du et al. ( 2020 ) on the mass reconstruction of galaxy-scale lenses. An end-to-end test is carried out, including the creation of mock strong lensing images, the subtraction of lens light, and the reconstruction of lensed images, where the lenses are selected from the galaxies in the Illustris-1 simulation. We notice that, regardless of the adopted mass models (the BPL model or its special cases), the Einstein radius can be robustly determined from imaging data alone, and the median bias is typically less than 1%. Away from the Einstein radius, the lens mass distribution tends to be harder to measure, especially at radii where there are no lensed images detected. We find that, with rigid priors, the BPL model can clearly outperform the single power-law models by achieving
- Published
- 2023
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