对局部中面的波校正评估

The Astrophysical Journal Pub Date : 2024-02-13 DOI:10.3847/1538-4357/ad20ea

Ziyuan Yin, Austin Hinkel

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引用次数: 0

摘要

由于盖亚太空望远镜（Gaia Space Telescope）的出现，已知银河系结构的数量不断增加，因此现在有必要研究如何将银河系同一区域的结构分开。事实上，了解每个结构的精确形式以及结构之间的相互作用有助于了解它们的起源和年代。此外，考虑到已知的结构，我们还可以探测更精细的银河结构。为了证明这一点，我们开发了一种奇数低通滤波器（OLPF），它可以去除像垂直波这样较小的、奇偶性的结构，并利用滤波后的数据来研究银河系中面的位置。我们发现，Xu 等人确定的径向波至少一直向内延伸到太阳的位置，其振幅向星盘内部密度较高的部分减小，这与简单的定性模拟一致。此外，我们还利用 OLPF 结果确定了太阳偏移量 z ⊙，并过滤掉了较小的结构。我们发现 z ⊙ = 34.2 ± 0.3 pc。

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A Wave-corrected Assessment of the Local Midplane

As the number of known Galactic structures mounts thanks to the Gaia Space Telescope, it is now pertinent to study methods for disentangling structures occupying the same regions of the Milky Way. Indeed, understanding the precise form of each individual structure and the interactions between structures may aid in understanding their origins and chronology. Moreover, accounting for known structures allows one to probe still finer Galactic structure. In order to demonstrate this, we have developed an odd low-pass filter (OLPF), which removes smaller, odd-parity structures like the vertical waves, and use the filtered data to examine the location of the Galaxy’s midplane. We find that the radial wave identified by Xu et al. continues inward to at least the Sun’s location, with an amplitude that decreases toward the inner, denser parts of the disk, consistent with a simple, qualitative simulation. Additionally, we employ the OLPF results to determine the solar offset, z ⊙, with smaller structures filtered out. We find that z ⊙ = 34.2 ± 0.3 pc.

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The Astrophysical Journal

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