DIISC-IV.DIISCovery of Anomalously Low Metallicity H ii Regions in NGC 99: Indirect Evidence of Gas Inflows(在 NGC 99 中发现异常低金属度 H ii 区域:气体流入的间接证据

Alejandro J. Olvera, Sanchayeeta Borthakur, Mansi Padave, Timothy Heckman, Hansung B. Gim, Brad Koplitz, Christopher Dupuis, Emmanuel Momjian and Rolf A. Jansen
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作为 "解密星际介质、恒星和环银河介质之间的相互作用(DIISC)"调查的一部分,我们研究了气体流入 NGC 99 星系盘面的间接证据。我们将来自 MMT 望远镜上 Binospec 摄谱仪的光学光谱与来自梵蒂冈先进技术望远镜的光学成像数据、来自美国国家科学基金会 Karl G. Jansky's 超大阵列的射电 H i 21 厘米发射图像以及来自哈勃太空望远镜上宇宙起源摄谱仪的紫外光谱相结合。我们测量了散布在星系周围的 26 个 H ii 区域的发射线(Hα、Hβ、[O iii]λ5007 、[N ii]λ6583 和 [S ii]λ6717, 31),并利用 N2 金属性指标估算出径向金属性梯度为-0.017 dex kpc-1。样本中有两个区域显示出异常低的金属性(ALM),为12 + log(O/H) = 8.36 dex,比该银河系半径上的其他区域低0.16 dex。它们的 H i 和 Hα 视线速度也相差很大,约为 35 km s-1。化学演化模型表明,气体吸积是形成 ALM 区域的原因。我们发现了NGC 99的星际介质与其环星系介质中的Lyα云之间存在相关性的证据,这表明低金属度气体吸积可能是一种途径。我们还利用局部气相金属性、恒星质量表面密度和恒星形成率表面密度计算了亚千亿秒尺度上的解析基本金属性关系(rFMR)。rFMR显示出与以往局部和全局FMR关系类似的趋势。
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DIISC-IV. DIISCovery of Anomalously Low Metallicity H ii Regions in NGC 99: Indirect Evidence of Gas Inflows
As a part of the Deciphering the Interplay between the Interstellar medium, Stars, and the Circumgalactic medium (DIISC) survey, we investigate indirect evidence of gas inflow into the disk of the galaxy NGC 99. We combine optical spectra from the Binospec spectrograph on the MMT telescope with optical imaging data from the Vatican Advanced Technology Telescope, radio H i 21 cm emission images from the NSF Karl G. Jansky’s Very Large Array, and UV spectroscopy from the Cosmic Origins Spectrograph on the Hubble Space Telescope. We measure emission lines (Hα, Hβ, [O iii]λ5007, [N ii]λ6583, and [S ii]λ6717, 31) in 26 H ii regions scattered about the galaxy and estimate a radial metallicity gradient of −0.017 dex kpc−1 using the N2 metallicity indicator. Two regions in the sample exhibit an anomalously low metallicity (ALM) of 12 + log(O/H) = 8.36 dex, which is ∼0.16 dex lower than other regions at that galactocentric radius. They also show a high difference between their H i and Hα line of sight velocities on the order of 35 km s−1. Chemical evolution modeling indicates gas accretion as the cause of the ALM regions. We find evidence for corotation between the interstellar medium of NGC 99 and Lyα clouds in its circumgalactic medium, which suggests a possible pathway for low metallicity gas accretion. We also calculate the resolved Fundamental Metallicity Relation (rFMR) on subkiloparsec scales using localized gas-phase metallicity, stellar mass surface density, and star formation rate surface density. The rFMR shows a similar trend as that found by previous localized and global FMR relations.
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