Cross-method analysis of co-rotation radii dataset for spiral galaxies

Research in Astronomy and Astrophysics Pub Date : 2024-05-17 DOI:10.1088/1674-4527/ad4d3b

Valeria Kostiuk, Alexander Marchuk, Alexander Gusev

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Abstract

A co-rotation radius is a key characteristic of disc galaxies that is essential to determine the angular speed of the spiral structure Ωp, and therefore understand its nature. In the literature, there are plenty of methods to estimate this value, but do these measurements have any consistency? In this work, we collected a dataset of corotation radius measurements for 547 galaxies, 300 of which had at least two values. An initial analysis reveals that most objects have rather inconsistent corotation radius positions. Moreover, a significant fraction of galactic discs is distinguished by a large error coverage and almost uniform distribution of measurements. These findings do not have any relation to spiral type, Hubble classification, or presence of a bar. Among other reasons, obtained results could be explained by the transient nature of spirals in a considerable part of galaxies. We have made our collected data sample publicly available, and have demonstrated on one example how it could be useful for future research by investigating a winding time value for a sample of galaxies with possible multiple spiral arm patterns.

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螺旋星系共转半径数据集的交叉方法分析

共转半径是盘状星系的一个关键特征，对于确定螺旋结构的角速度Ωp，从而了解其性质至关重要。在文献中，有很多方法可以估算出这个值，但是这些测量值是否具有一致性呢？在这项工作中，我们收集了 547 个星系的冠状半径测量数据集，其中 300 个星系至少有两个测量值。初步分析表明，大多数天体的环绕半径位置相当不一致。此外，有相当一部分星系盘的误差范围很大，测量值的分布几乎是均匀的。这些发现与螺旋类型、哈勃分类或条带的存在没有任何关系。除其他原因外，获得的结果可以用相当一部分星系中螺旋的瞬时性来解释。我们已经公开了收集到的数据样本，并通过一个例子展示了如何通过研究可能存在多旋臂模式的星系样本的缠绕时间值来为未来的研究提供帮助。

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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Research in Astronomy and Astrophysics

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