银河系恒星群的蓝图。V. 三维局部尘埃消减

Deokkeun An, Timothy C. Beers, Anirudh Chiti
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摘要

利用我们之前研究中开发的经验校准合成光谱网格,我们从 Gaia DR3 中的大量低分辨率 XP 光谱集合中构建了一张全天空三维消光图。沿着每条视线(面积从 0.2 到 13.4 deg2 不等),我们确定了主序星的红度和金属度,并建立了距离太阳约 3 kpc 的前景消光模型。此外,我们还探索了参数搜索中总消光与选择性消光比的变化,并确定了其在两个半球不同云环境中的平均系统变化。在云的最密集部分以外的区域,我们的红化估计值通过与以前的红化图的比较得到了验证。不过,与其他基于 XP 光谱的独立研究相比,我们的结果存在明显差异,这可能是由于他们在估计金属度时出现了系统偏差。另一方面,我们的金属性标度与高分辨率光谱丰度标度呈现出合理的一致性。我们还应用校准模型评估了 XP 光谱的准确性,并证实在 400 nm 以下的较短波长上,通量高估呈上升趋势。
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A Blueprint for the Milky Way’s Stellar Populations. V. 3D Local Dust Extinction
Using a grid of empirically calibrated synthetic spectra developed in our previous study, we construct an all-sky 3D extinction map from the large collection of low-resolution XP spectra in Gaia DR3. Along each line of sight, with an area ranging from 0.2 to 13.4 deg2, we determine both the reddening and metallicity of main-sequence stars and model the foreground extinction up to approximately 3 kpc from the Sun. Furthermore, we explore variations in the total-to-selective extinction ratio in our parameter search and identify its mean systematic change across diverse cloud environments in both hemispheres. In regions outside the densest parts of the clouds, our reddening estimates are validated through comparisons with previous reddening maps. However, a notable discrepancy arises in comparison to other independent work based on XP spectra, which can be attributed to systematic offsets in their metallicity estimates. On the other hand, our metallicity scale exhibits reasonable agreement with the high-resolution spectroscopic abundance scale. We also assess the accuracy of the XP spectra by applying our calibrated models, and we confirm an increasing trend of flux overestimation at shorter wavelengths below 400 nm.
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