Precision MARS Mass Reconstruction of A2744: Synergizing the Largest Strong-lensing and Densest Weak-lensing Data Sets from JWST

The Astrophysical Journal Pub Date : 2024-01-25 DOI:10.3847/1538-4357/ad0cbf

Sangjun Cha, K. HyeongHan, Zachary P. Scofield, Hyungjin Joo, M. J. Jee

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Abstract

We present a new high-resolution free-form mass model of A2744 that combines both weak-lensing (WL) and strong-lensing (SL) data sets from JWST. The SL data set comprises 286 multiple images, presenting the most extensive SL constraint to date for a single cluster. The WL data set, employing photo-z selection, yields a source density of ∼ 350 arcmin − 2 , marking the densest WL constraint ever. The combined mass reconstruction enables the highest-resolution mass map of A2744 within the ∼1.8 Mpc × 1.8 Mpc reconstruction region to date, revealing an isosceles triangular structure with two legs of ∼1 Mpc and a base of ∼0.6 Mpc. Although our algorithm, which is called MAximum-entropy ReconStruction (MARS), is entirely blind to the cluster galaxy distribution, the resulting mass reconstruction traces the brightest cluster galaxies remarkably well. The five strongest mass peaks coincide with the five most luminous cluster galaxies within ≲2″. We do not detect any unusual mass peaks that are not traced by the cluster galaxies, unlike the findings in previous studies. Our mass model shows the smallest scatter of SL multiple images in both source (∼0.″05) and image (∼0.″1) planes, which is lower than in previous studies by a factor of ∼4. Although MARS represents the mass field with an extremely large number of free parameters (∼300,000), it converges to a solution within a few hours because we use a deep-learning technique. We make our mass and magnification maps publicly available.

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A2744 的精确 MARS 质量重建：协同 JWST 最大的强透镜和最密集的弱透镜数据集

我们结合 JWST 的弱透镜（WL）和强透镜（SL）数据集，为 A2744 提出了一个新的高分辨率自由形式质量模型。强透镜数据集包括286幅多幅图像，是迄今为止对单个星团最广泛的强透镜约束。弱透镜数据集采用了光度-z 选择，产生的源密度为 350 弧分-2，是有史以来最密集的弱透镜约束。综合质量重建使得 A2744 在 ∼1.8 Mpc × 1.8 Mpc 重建区域内的质量图分辨率达到最高，揭示了一个等腰三角形结构，两腿长 ∼1 Mpc，底边长 ∼0.6 Mpc。尽管我们的算法，也就是 "最大熵重建（MARS）"算法，对星团星系的分布是完全盲目的，但是它所重建的质量却能很好地追踪到最亮的星团星系。五个最强的质量峰与≲2″范围内五个最亮的星团星系相吻合。与以往的研究结果不同，我们没有探测到任何星团星系没有追踪到的异常质量峰。我们的质量模型在源（∼0.″05）和像（∼0.″1）平面上显示出最小的SL多重像散度，比以前的研究低了∼4倍。虽然 MARS 表示的质量场自由参数极多（∼300,000），但由于我们使用了深度学习技术，它在几个小时内就能收敛到一个解。我们公开了质量和放大率图。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Astrophysical Journal

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