通过呼吸运动推断当地手臂的增长情况

Q1 Earth and Planetary Sciences

Monthly Notices of the Royal Astronomical Society: Letters Pub Date : 2023-10-03 DOI:10.1093/mnrasl/slad190

T. Asano, Daisuke Kawata, Michiko S. Fujii, Junichi Baba

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引用次数: 0

摘要

旋臂的理论模型表明，旋臂会引起圆盘恒星的垂直散射运动。通过利用 Gaia DR3 分析呼吸运动（银河系圆盘中平面周围的一种连贯的不对称垂直运动），我们发现沿本地臂存在一种压缩呼吸运动。另一方面，通过对一个孤立的类银河系盘状星系进行N-体模拟，我们发现当旋臂处于生长阶段时，瞬态和动态旋臂会引起压缩呼吸运动，而膨胀呼吸运动则出现在破坏阶段。我们观测到的压缩呼吸运动与本星系旋臂明显一致，这与模拟旋臂在生长阶段的情况相似。因此，我们认为本地臂的压缩呼吸运动可以用本地臂处于瞬时动态旋臂的生长阶段来解释。我们还发现了与英仙座旋臂相关的膨胀呼吸运动的初步特征，同时外旋臂也与压缩呼吸运动相吻合。由此可以推断，英仙座臂和外围臂分别处于中断和增长阶段。

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Growing Local arm inferred by the breathing motion

Theoretical models of spiral arms suggest that the spiral arms provoke a vertical bulk motion in disc stars. By analysing the breathing motion, a coherent asymmetric vertical motion around the mid-plane of the Milky Way disc, with Gaia DR3, we found that a compressing breathing motion presents along the Local arm. On the other hand, with an N-body simulation of an isolated Milky Way-like disc galaxy, we found that the transient and dynamic spiral arms induce compressing breathing motions when the arms are in the growth phase, while the expanding breathing motion appears in the disruption phase. The observed clear alignment of the compressing breathing motion with the Local arm is similar to what is seen in the growth phase of the simulated spiral arms. Hence, we suggest that the Local arm’s compressing breathing motion can be explained by the Local arm being in the growth phase of a transient and dynamic spiral arm. We also identified the tentative signatures of the expanding breathing motion associated with the Perseus arm and also the Outer arm coinciding with the compressing breathing motion. This may infer that the Perseus and Outer arms are in the disruption and growth phases, respectively.

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来源期刊

Monthly Notices of the Royal Astronomical Society: Letters Earth and Planetary Sciences-Space and Planetary Science

CiteScore

8.80

自引率

0.00%

发文量

136

期刊介绍： For papers that merit urgent publication, MNRAS Letters, the online section of Monthly Notices of the Royal Astronomical Society, publishes short, topical and significant research in all fields of astronomy. Letters should be self-contained and describe the results of an original study whose rapid publication might be expected to have a significant influence on the subsequent development of research in the associated subject area. The 5-page limit must be respected. Authors are required to state their reasons for seeking publication in the form of a Letter when submitting their manuscript.