Optical+Near-IR Analysis of a Newly Confirmed Einstein Ring at z ∼ 1 from the Kilo-Degree Survey: Dark Matter Fraction, Total and Dark Matter Density Slope, and Initial Mass Function*

The Astrophysical Journal Letters Pub Date : 2025-07-03 DOI:10.3847/2041-8213/ade680

Rui Li, Nicola R. Napolitano, Giuseppe D’Ago, Vyacheslav N. Shalyapin, Kai Zhu, Xiaotong Guo, Ran Li, Léon V. E. Koopmans, Chiara Spiniello, Crescenzo Tortora, Francesco La Barbera, Haicheng Feng, Liang Gao, Zhiqi Huang, Koen Kuijken, Hui Li, Linghua Xie, Mario Radovich and Alexey Sergeyev

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Abstract

We report the spectroscopic confirmation of a bright blue Einstein ring in the Kilo-Degree Survey (KiDS) footprint: the Einstein “blue eye.” Spectroscopic data from X-Shooter at the Very Large Telescope (VLT) show that the lens is a typical early-type galaxy (ETG) at zl = 0.9906, while the background source is a Lyα emitter at zs = 2.823. The reference lens modeling was performed on a high-resolution Y-band adaptive-optics image from HAWK-I at VLT. Assuming a singular isothermal ellipsoid total mass density profile, we inferred an Einstein radius REin = 10.47 ± 0.06 kpc. The average slope of the total mass density inside the Einstein radius, as determined by a joint analysis of lensing and isotropic Jeans equations, is , showing no systematic deviation from the slopes of lower-redshift galaxies. This can be the evidence of ETGs developing through dry mergers plus moderate dissipationless accretion. Stellar population analysis with eight-band (griZYJHKs) photometries from KiDS and VIKING shows that the total stellar mass of the lens is M* = (3.95 ± 0.35) × 1011 M⊙ (Salpeter initial mass function (IMF)), implying a dark matter fraction inside the effective radius of fDM = 0.307 ± 0.151. We finally explored the dark matter halo slope and found a strong degeneracy with the dynamic stellar mass. Dark matter adiabatic contraction is needed to explain the posterior distribution of the slope, unless an IMF heavier than Salpeter is assumed.

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来自千度巡天z ~ 1处新确认的爱因斯坦环的光学+近红外分析：暗物质分数、总密度和暗物质密度斜率以及初始质量函数*

我们报告了在基度调查（KiDS）足迹中发现的明亮蓝色爱因斯坦环的光谱确认：爱因斯坦的“蓝眼睛”。超大望远镜（VLT） X-Shooter的光谱数据表明，该透镜为典型的早期型星系（ETG）， zl = 0.9906，背景源为Lyα发射器，zs = 2.823。参考透镜建模是在VLT上HAWK-I的高分辨率y波段自适应光学图像上进行的。假设一个奇异等温椭球总质量密度分布，我们推断出爱因斯坦半径REin = 10.47±0.06 kpc。爱因斯坦半径内的总质量密度的平均斜率，由透镜效应和各向同性的Jeans方程的联合分析确定，显示出与低红移星系的斜率没有系统偏差。这可以作为ETGs通过干合并和适度无耗散吸积形成的证据。KiDS和VIKING的八波段（grizyjhk）光度分析表明，透镜的总恒星质量为M* =（3.95±0.35）× 1011 M⊙（Salpeter初始质量函数（IMF）），这意味着在fDM有效半径内的暗物质比例= 0.307±0.151。我们最终探索了暗物质晕斜率，发现了一个与动态恒星质量的强简并。需要暗物质绝热收缩来解释斜率的后验分布，除非假设有比Salpeter更重的IMF。

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 Letters

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