An excursion into the core of the cluster lens Abell 1689

Ghosh, Agniva; Adams, Dominic; Williams, Liliya L R; Liesenborgs, Jori; Alavi, Anahita; Scarlata, Claudia

doi:10.1093/mnras/stad2418

Monthly Notices of the Royal Astronomical Society

2023

DOI: 10.1093/mnras/stad2418

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An excursion into the core of the cluster lens Abell 1689

Agniva Ghosh,

Dominic Adams,

Liliya L R Williams

et al.

Abstract: Abell 1689 is a well studied cluster of galaxies and one of the largest gravitational lens systems ever observed. We have obtained a reconstruction of the cluster Abell 1689 using grale, a free-form lens inversion method that relies exclusively on the multiple image data. Non-inclusion of any data related to cluster member galaxies ensures an unbiased measure of the mass distribution, which is the most notable feature of free-form methods like grale. We used two different sets of multiple image systems from th… Show more

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Cited by 5 publications

References 70 publications

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Strong Lensing by Galaxy Clusters

Natarajan,

Williams,

Bradač

et al. 2024

Space Sci Rev

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Galaxy clusters as gravitational lenses play a unique role in astrophysics and cosmology: they permit mapping the dark matter distribution on a range of scales; they reveal the properties of high and intermediate redshift background galaxies that would otherwise be unreachable with telescopes; they constrain the particle nature of dark matter and are a powerful probe of global cosmological parameters, like the Hubble constant. In this review we summarize the current status of cluster lensing observations and the insights they provide, and offer a glimpse into the capabilities that ongoing, and the upcoming next generation of telescopes and surveys will deliver. While many open questions remain, cluster lensing promises to remain at the forefront of discoveries in astrophysics and cosmology.

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Strong Lensing by Galaxy Clusters

Natarajan,

Williams,

Bradač

et al. 2024

Space Sci Rev

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What multiple images say about the large-scale mass maps of galaxy clusters

Lasko,

Williams,

Ghosh

2023

Monthly Notices of the Royal Astronomical Society

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All lens modeling methods, simply-parametrized, hybrid, and free-form, use assumptions to reconstruct galaxy clusters with multiply imaged sources, though the nature of these assumptions (priors) can differ considerably between methods. This raises an important question in strong lens modeling: how much information about the mass model comes from the lensed images themselves, and how much is a consequence of model priors. One way to assess the relative contributions of the lensing data vs. model priors is to estimate global lens properties through images alone, without any prior assumptions about the mass distribution. This is our approach. We use 200 mock cluster lenses, half of which have substructures which vary from clumpy and compact to smooth and extended; a simulated cluster Ares; and real clusters Abell 1689 and RXJ1347.5-1145 to show that the center, ellipticity, and position angle can be estimated quite well, and nearly perfectly for weakly substructured clusters, implying that the recovery of these properties is largely driven by the images, not priors. However, the correlation between the true and image-estimated amount of substructure has a lot of scatter, suggesting that multiple images do not uniquely constrain substructure. Therefore in general, lens model priors have a stronger effect on smaller scales. Our analysis partly explains why reconstructions using different methodologies can produce qualitatively different mass maps on substructure scales. Our analysis is not meant to aide or replace lens inversion methods, but only to investigate what cluster properties are constrained with multiple images.

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Free-form and hybrid lens models for SDSS J1004+4112: substructure and central image time delay constraints

Perera,

Williams,

Liesenborgs

et al. 2023

Monthly Notices of the Royal Astronomical Society

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SDSS J1004+4112 is a well-studied gravitational lens with a recently measured time delay between its first and fourth arriving quasar images. Using this new constraint, we present updated free-form lens reconstructions using the lens inversion method grale, which only uses multiple image and time delay data as inputs. In addition, we obtain hybrid lens reconstructions by including a model of the brightest cluster galaxy as a Sersic lens. For both reconstructions, we use two sets of images as input: one with all identified images, and the other a revised set leaving out images that have been potentially misidentified. We also develop a source position optimization Markov chain Monte Carlo (MCMC) routine, performed on completed grale runs, that allows each model to better match observed image positions and time delays. All the reconstructions produce similar mass distributions, with the hybrid models finding a steeper profile in the centre. Similarly, all the mass distributions are fitted by the Navarro–Frenk–White profile, finding results consistent with previous parametric reconstructions and those derived from Chandra X-ray observations. We identify an ∼5 × 1011 M⊙ substructure apparently unaffiliated with any cluster member galaxy and present in all our models, and study its reality. Using our free-form and hybrid models, we predict a central quasar image time delay of ∼2980 ± 270 and ∼3280 ± 215 d, respectively. A potential future measurement of this time delay will, while being an observational challenge, further constrain the steepness of the central density profile.

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An excursion into the core of the cluster lens Abell 1689

Cited by 5 publications

References 70 publications

Strong Lensing by Galaxy Clusters

Strong Lensing by Galaxy Clusters

What multiple images say about the large-scale mass maps of galaxy clusters

Free-form and hybrid lens models for SDSS J1004+4112: substructure and central image time delay constraints

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