The Next Step in Galaxy Cluster Strong Lensing: Modeling the Surface Brightness of Multiply Imaged Sources*

Ana Acebron, Claudio Grillo, Sherry H. Suyu, Giuseppe Angora, Pietro Bergamini, Gabriel B. Caminha, Sebastian Ertl, Amata Mercurio, Mario Nonino, Piero Rosati, Han Wang, Andrea Bolamperti, Massimo Meneghetti, Stefan Schuldt and Eros Vanzella
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Abstract

Overcoming both modeling and computational challenges, we present, for the first time, the extended surface-brightness distribution model of a strongly lensed source in a complex galaxy-cluster-scale system. We exploit the high-resolution Hubble Space Telescope (HST) imaging and extensive Multi Unit Spectroscopic Explorer spectroscopy to build an extended strong-lensing model, in a full multiplane formalism, of SDSS J1029+2623, a lens cluster at z = 0.588 with three multiple images of a background quasar (z = 2.1992). Going beyond typical cluster strong-lensing modeling techniques, we include as observables both the positions of 26 pointlike multiple images from seven background sources, spanning a wide redshift range between 1.02 and 5.06, and the extended surface-brightness distribution of the strongly lensed quasar host galaxy, over ∼78,000 HST pixels. In addition, we model the light distribution of seven objects, angularly close to the strongly lensed quasar host, over ∼9300 HST pixels. Our extended lens model reproduces well both the observed intensity and morphology of the quasar host galaxy in the HST F160W band (with a 0.″03 pixel scale). The reconstructed source shows a single, compact, and smooth surface-brightness distribution, for which we estimate an intrinsic magnitude of 23.3 ± 0.1 in the F160W band and a half-light radius of (2.39 ± 0.03) kpc. The increased number of observables enables the accurate determination of the total mass of line-of-sight halos lying angularly close to the extended arc. This work paves the way for a new generation of galaxy cluster strong-lens models, where additional, complementary lensing observables are directly incorporated as model constraints.
星系团强透镜的下一步:多重成像源表面亮度建模*
我们克服了建模和计算两方面的挑战,首次提出了复杂星系-星团尺度系统中强透镜源的扩展表面亮度分布模型。我们利用哈勃太空望远镜(HST)的高分辨率成像和广泛的多单元光谱探测器(Multi Unit Spectroscopic Explorer)光谱,以完整的多平面形式主义,为SDSS J1029+2623建立了一个扩展的强透镜模型,这是一个z=0.588的透镜星团,有三个背景类星体(z=2.1992)的多重图像。我们超越了典型的透镜星团强透镜建模技术,将来自 7 个背景源的 26 幅点状多重图像的位置(红移范围在 1.02 到 5.06 之间)和强透镜类星体主星系的扩展表面亮度分布(HST 像素数量为 78,000 个)作为观测数据。此外,我们还模拟了与强透镜类星体主星系角度相近的七个天体在 9300 HST 像素范围内的光分布。我们的扩展透镜模型很好地再现了类星体宿主星系在 HST F160W 波段(0.″03 像素尺度)上的观测强度和形态。重建后的源显示出单一、紧凑和平滑的表面亮度分布,我们估计其在 F160W 波段的本征星等为 23.3 ± 0.1,半光半径为 (2.39 ± 0.03) kpc。观测数据数量的增加,使得我们能够准确地测定位于延伸弧角附近的视线光晕的总质量。这项工作为新一代星系团强透镜模型铺平了道路,在这种模型中,额外的、互补的透镜观测数据被直接纳入模型约束条件。
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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