JWST imaging of the closest globular clusters -- IV. Chemistry, luminosity, and mass functions of the lowest-mass members in the NIRISS parallel fields

arXiv - PHYS - Solar and Stellar Astrophysics Pub Date : 2024-09-10 DOI:arxiv-2409.06774

M. Libralato, R. Gerasimov, L. Bedin, J. Anderson, D. Apai, A. Bellini, A. J. Burgasser, M. Griggio, D. Nardiello, M. Salaris, M. Scalco, E. Vesperini

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Abstract

We present observations of the two closest globular clusters, NGC 6121 and NGC 6397, taken with the NIRISS detector of JWST. The combination of our new JWST data with archival Hubble Space Telescope (HST) images allows us to compute proper motions, disentangle cluster members from field objects, and probe the main sequence (MS) of the clusters down to <0.1 $M_\odot$ as well as the brighter part of the white-dwarf sequence. We show that theoretical isochrones fall short in modeling the low-mass MS and discuss possible explanations for the observed discrepancies. Our analysis suggests that the lowest-mass members of both clusters are significantly more metal-rich and oxygen-poor than their higher-mass counterparts. It is unclear whether the difference is caused by a genuine mass-dependent chemical heterogeneity, low-temperature atmospheric processes altering the observed abundances, or systematic shortcomings in the models. We computed the present-day local luminosity and mass functions of the two clusters; our data reveal a strong flattening of the mass function indicative of a significant preferential loss of low-mass stars in agreement with previous dynamical models for these two clusters. We have made our NIRISS astro-photometric catalogs and stacked images publicly available to the community.

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JWST 对最接近球状星团的成像 -- IV.NIRISS平行场中最低质量成员的化学、光度和质量函数

我们将介绍利用 JWST 的近红外ISS 探测器对两个距离最近的球状星团 NGC 6121 和 NGC 6397 的观测结果。将JWST的新数据与哈勃太空望远镜（HST）的存档图像结合起来，我们就可以计算适当的运动，将星团成员从场天体中分离出来，并探测星团的主序列（MS），最小可达<0.1 $M_\odot$，以及白矮星序列中较亮的部分。我们发现理论上的等距线并不能模拟低质量的主序，并讨论了观测到的差异的可能解释。我们的分析表明，这两个星团中质量最低的成员比质量较高的成员富含金属和贫氧。目前还不清楚造成这种差异的原因是与质量相关的真正的化学异质性，还是低温大气过程改变了观测到的丰度，或者是模型的系统性缺陷。我们计算了这两个星团现在的光度和质量函数；我们的数据显示质量函数的强烈扁平化，表明低质量恒星的大量优先损耗，这与这两个星团以前的动力学模型是一致的。我们已经向社会公开了我们的 NIRISS 天文光度目录和叠加图像。

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arXiv - PHYS - Solar and Stellar Astrophysics

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