Retrograde infall of the intergalactic gas onto S-galaxy and activity of galactic nuclei

Pub Date : 2024-03-08 DOI:10.1515/astro-2022-0231

Sergey S. Khrapov, Alexander V. Khoperskov

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Abstract

We present the results of numerical simulations focused on the accretion of intergalactic gas onto a gas-rich S-type disc galaxy. Our investigation explores the conditions favouring the emergence of counterrotating stellar and gaseous components within the galaxy, leading to the inflow of gas towards the central kiloparsec of the galaxy. Notably, we find that the most substantial reservoir of gas, serving as fuel for galactic nucleus activity, resides within the central region during the retrograde infall of gas at an incident angle of approximately

2 0 °

2{0}^{^\circ }

relative to the galactic plane. Departures from this angle significantly diminish the gas flow rate towards the galactic centre. Conversely, the prograde infall of intergalactic gas makes a marginal contribution to the gas content in the central region and cannot supply fuel to the active galactic nucleus. An intriguing characteristic of the observed retrograde impact is the emergence of a rotating polar ring at the galaxy’s periphery, primarily originating from intergalactic gas.

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银河系间气体向 S 银河系的逆冲和星系核的活动

我们展示的数值模拟结果侧重于星系际气体对一个富含气体的S型圆盘星系的吸积。我们的研究探讨了星系内有利于出现逆旋转恒星和气体成分的条件，这些条件导致气体流入星系的中心千帕秒。值得注意的是，我们发现在气体逆向流入的过程中，最主要的气体库是位于相对于银河系平面的入射角约为2 0 ° 2{0}^{^\circ }的中心区域，它是星系核活动的燃料。偏离这个角度会大大降低气体流向银河系中心的速率。相反，银河系间气体的顺行下沉对中心区域气体含量的贡献微乎其微，无法为活动星系核提供燃料。观测到的逆行撞击的一个有趣特征是星系外围出现了一个旋转极环，它主要来自星系间气体。

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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