The Intrinsic Flattening of Extragalactic Stellar Disks

arXiv - PHYS - Astrophysics of Galaxies Pub Date : 2024-09-10 DOI:arxiv-2409.06768

Jeremy FavaroQueen's, Stéphane CourteauQueen's, Sébastien ComérónULL/IAC, Connor StoneUdeM/Ciela/MILA

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Abstract

Highly inclined (edge-on) disk galaxies offer the unique perspective to constrain their intrinsic flattening, $c/a$, where $c$ and $a$ are respectively the vertical and long radial axes of the disk measured at suitable stellar densities. The ratio $c/a$ is a necessary quantity in the assessment of galaxy inclinations, three-dimensional structural reconstructions, total masses, as well as a constraint to galaxy formation models. 3.6 micron maps of 133 edge-on spiral galaxies from the Spitzer Survey of Stellar Structure in Galaxies (S4G) and its early-type galaxy extension are used to revisit the assessment of $c/a$ free from dust extinction and away from the influence of a stellar bulge. We present a simple definition of $c/a$ and explore trends with other galactic physical parameters: total stellar mass, concentration index, total HI mass, mass of the central mass concentration, circular velocity, model-dependent scales, as well as Hubble type. Other than a dependence on early/late Hubble types, and a related trend with light concentration, no other parameters were found to correlate with the intrinsic flattening of spiral galaxies. The latter is mostly constant with $\langle c/a \rangle$ = 0.124 $\pm$ 0.001 (stat) $\pm$ 0.033 (intrinsic/systematic) and greater for earlier types.

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河外星系恒星盘的本征扁平化

高倾斜（边缘）盘状星系提供了一个独特的视角来约束其内在的扁平化，即$c/a$，其中$c$和$a$分别是在适当恒星密度下测量的盘状星系的垂直轴和长径向轴。c/a$的比值是评估星系倾角、三维结构重建、总质量的必要参数，也是星系形成模型的约束条件。斯皮策星系恒星结构巡天（S4G）及其早期类型星系延伸的133个螺旋边缘星系的3.6微米地图被用来重新评估没有尘埃消光和没有恒星隆起影响的c/a$。我们提出了c/a$的一个简单定义，并探讨了它与其他星系物理参数的变化趋势：恒星总质量、浓缩指数、HI总质量、中心质量浓缩的质量、圆周速度、模型相关尺度以及哈勃类型。除了对早期/晚期哈勃类型的依赖，以及与光浓度相关的趋势之外，没有发现其他参数与螺旋星系的内在扁平化相关。后者大部分是恒定的，$\langle c/a \rangle$ = 0.124 $\pm$ 0.001（静态） $\pm$0.033（固有/系统），对于早期类型来说更大。

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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arXiv - PHYS - Astrophysics of Galaxies

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