Abstract
Observations suggest that the dark matter and stars in early-type galaxies 'conspire' to produce a surprisingly simple distribution of total mass, ρ(r) ρ-γ, with γ≈ 2. We measure the distribution of mass in 48 early-type galaxies that gravitationally lens a resolved background source. By fitting the source light in every pixel of images from the Hubble Space Telescope, we find a mean γ =2.075-0.024+0.023 with an intrinsic scatter between galaxies of σγ =0.172+0.022-0.032 for the overall sample. This is consistent with and has similar precision to traditional techniques that employ spectroscopic observations to supplement lensing with mass estimates from stellar dynamics. Comparing measurements of γfor individual lenses using both techniques, we find a statistically insignificant correlation of -0.150+0.223-0.217 between the two, indicating a lack of statistical power or deviations from a power-law density in certain lenses. At fixed surface mass density, we measure a redshift dependence, γ z=0.345+0.322-0.296, that is consistent with traditional techniques for the same sample of Sloan Lens ACS and GALaxy-Lyα EmitteR sYstems (GALLERY) lenses. Interestingly, the consistency breaks down when we measure the dependence of γon the surface mass density of a lens galaxy. We argue that this is tentative evidence for an inflection point in the total mass-density profile at a few times the galaxy effective radius - breaking the conspiracy.
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Etherington, A., Nightingale, J. W., Massey, R., Robertson, A., Cao, X. Y., Amvrosiadis, A., … Li, R. (2023). Beyond the bulge-halo conspiracy? Density profiles of early-type galaxies from extended-source strong lensing. Monthly Notices of the Royal Astronomical Society, 521(4), 6005–6018. https://doi.org/10.1093/mnras/stad582
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