圆盘星系中心偏离中心的暗物质晕导致的三维恒星轨道

IF 1.9 4区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS
Meenu Prajapati, Mamta Gulati
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引用次数: 0

摘要

恒星轨道和星系演化是相互交织的过程,对彼此都有长期影响。本文研究了星系中心区域的恒星轨道如何受到不对称暗物质光环势能的干扰。在银河系中的观测和模拟证据表明,暗物质晕的中心可能与核心中心偏离几帕斯卡。星系核心恒星的运动方程是用偏移光环产生的三维扰动势来表示的。得到了中心区域有效位势的方位角变化,并利用一阶外圆理论求解了轨道。这种扰动势的大小在小半径处增长,并表现出 m=1 的方位角波动。在半径为 3 kpc 的中心区域,即使是 300 pc 的微小光环偏移,也会造成令人惊讶的强烈空间和运动学倾斜。最初假定在圆盘平面内的平面轨道往往会离开平面,从而产生非平面构型。此外,只要光环偏移持续存在,中心区域就会保持倾斜。暗物质光环将对这一区域的动态发展产生重大影响,并可能为活动星系核提供燃料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Three-dimensional stellar orbits due to off-centered dark matter halo at the center of the disc galaxies

Stellar orbits and the evolution of galaxies are intertwined processes that have long-term implications on each other. This paper studies how stellar orbits at the galaxy’s central region are disturbed by an asymmetric dark matter halo potential. Evidence from the observations and simulations in the Milky Way type galaxy suggests that the center of the dark matter halo could be off-centered by a few parsecs concerning the center of the core. The equations of motion of stars in the core of galaxies are expressed in terms of three-dimensional perturbed potential arising from the offset halo. The central region’s azimuthal variation in the effective potential is obtained and the first-order epicyclic theory is used to solve for the orbits. The magnitude of this perturbation potential grows at small radii and exhibits m=1 azimuthal fluctuations. In the central region, within 3 kpc radius, even a small halo offset of 300 pc can cause a surprisingly strong spatial and kinematical lopsidedness. A planar orbit, initially assumed to be in disc plane, tends to leave the plane giving rise to non-planar configuration. Furthermore, as long as the halo offset persists, the central region will stay lopsided. The dark matter halo would significantly impact the dynamic development of this region and could help fuel the active galactic nucleus.

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来源期刊
New Astronomy
New Astronomy 地学天文-天文与天体物理
CiteScore
4.00
自引率
10.00%
发文量
109
审稿时长
13.6 weeks
期刊介绍: New Astronomy publishes articles in all fields of astronomy and astrophysics, with a particular focus on computational astronomy: mathematical and astronomy techniques and methodology, simulations, modelling and numerical results and computational techniques in instrumentation. New Astronomy includes full length research articles and review articles. The journal covers solar, stellar, galactic and extragalactic astronomy and astrophysics. It reports on original research in all wavelength bands, ranging from radio to gamma-ray.
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