{"title":"[质量/铁]和可变初始质量函数:大质量星系的[α/Fe]修正","authors":"Emilie Pernet, Alina Boecker, Ignacio Martín-Navarro","doi":"10.1051/0004-6361/202449308","DOIUrl":null,"url":null,"abstract":"Observations of nearby massive galaxies have revealed that they are older and richer in metals and magnesium than their low-mass counterparts. In particular, the overabundance of magnesium compared to iron, [Mg/Fe], is interpreted to reflect the short star formation history that the current massive galaxies underwent early in the Universe. We present a systematic revision of the [Mg/Fe] – velocity dispersion (<i>σ<i/>) relation based on stacked spectra of early-type galaxies with a high signal-to-noise ratio from the Sloan Digital Sky Survey. Using the penalized pixel-fitting (pPXF) method and the MILES single stellar population models, we fit a wide optical wavelength range to measure the net <i>α<i/>-abundance. The combination of pPXF and <i>α<i/>-enhanced MILES models incorrectly leads to an apparently decreasing trend of [<i>α<i/>/Fe] with velocity dispersion. We interpret this result as a consequence of variations in the individual abundances of the different <i>α<i/>-elements. This warrants caution for a naive use of full spectral fitting algorithms paired with stellar population models that do not take individual elemental abundance variations into account, especially when deriving averaged quantities such as the mean [<i>α<i/>/Fe] of a stellar population. In addition, and based on line-strength measurements, we quantify the impact of a non-universal initial mass function on the recovered abundance pattern of galaxies. In particular, we find that a simultaneous fit of the slope of the initial mass function and the [Mg/Fe] results in a shallower [Mg/Fe]–<i>σ<i/> relation. Therefore, our results suggest that star formation in massive galaxies lasted longer than what has been reported previously, although it still occurred significantly faster than in the solar neighbourhood.","PeriodicalId":8571,"journal":{"name":"Astronomy & Astrophysics","volume":null,"pages":null},"PeriodicalIF":5.4000,"publicationDate":"2024-07-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"[Mg/Fe] and variable initial mass function: Revision of [α/Fe] for massive galaxies\",\"authors\":\"Emilie Pernet, Alina Boecker, Ignacio Martín-Navarro\",\"doi\":\"10.1051/0004-6361/202449308\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Observations of nearby massive galaxies have revealed that they are older and richer in metals and magnesium than their low-mass counterparts. In particular, the overabundance of magnesium compared to iron, [Mg/Fe], is interpreted to reflect the short star formation history that the current massive galaxies underwent early in the Universe. We present a systematic revision of the [Mg/Fe] – velocity dispersion (<i>σ<i/>) relation based on stacked spectra of early-type galaxies with a high signal-to-noise ratio from the Sloan Digital Sky Survey. Using the penalized pixel-fitting (pPXF) method and the MILES single stellar population models, we fit a wide optical wavelength range to measure the net <i>α<i/>-abundance. The combination of pPXF and <i>α<i/>-enhanced MILES models incorrectly leads to an apparently decreasing trend of [<i>α<i/>/Fe] with velocity dispersion. We interpret this result as a consequence of variations in the individual abundances of the different <i>α<i/>-elements. This warrants caution for a naive use of full spectral fitting algorithms paired with stellar population models that do not take individual elemental abundance variations into account, especially when deriving averaged quantities such as the mean [<i>α<i/>/Fe] of a stellar population. In addition, and based on line-strength measurements, we quantify the impact of a non-universal initial mass function on the recovered abundance pattern of galaxies. In particular, we find that a simultaneous fit of the slope of the initial mass function and the [Mg/Fe] results in a shallower [Mg/Fe]–<i>σ<i/> relation. 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引用次数: 0
摘要
对附近大质量星系的观测表明,它们比低质量的同类星系更古老,金属和镁的含量也更丰富。尤其是镁含量([Mg/Fe])比铁含量([Mg/Fe])高,这被解释为反映了当前大质量星系在宇宙早期所经历的短暂恒星形成历史。我们基于斯隆数字巡天中高信噪比的早期型星系的叠加光谱,对[Mg/Fe]-速度色散(σ)关系进行了系统的修正。利用惩罚性像素拟合(pPXF)方法和 MILES 单恒星群模型,我们拟合了很宽的光学波长范围,测量了净α丰度。pPXF 和 α 增强 MILES 模型的组合错误地导致了[α/Fe]随速度色散明显下降的趋势。我们将这一结果解释为不同α元素个体丰度变化的结果。这就要求我们在使用全光谱拟合算法和恒星群模型时,尤其是在推导恒星群的平均[α/Fe]等平均量时,一定要谨慎。此外,根据线强度测量结果,我们量化了非通用初始质量函数对恢复的星系丰度模式的影响。特别是,我们发现同时拟合初始质量函数斜率和[Mg/Fe]会导致较浅的[Mg/Fe]-σ关系。因此,我们的研究结果表明,大质量星系中恒星形成的时间比以前报道的要长,尽管它的形成速度仍然明显快于太阳附近的星系。
[Mg/Fe] and variable initial mass function: Revision of [α/Fe] for massive galaxies
Observations of nearby massive galaxies have revealed that they are older and richer in metals and magnesium than their low-mass counterparts. In particular, the overabundance of magnesium compared to iron, [Mg/Fe], is interpreted to reflect the short star formation history that the current massive galaxies underwent early in the Universe. We present a systematic revision of the [Mg/Fe] – velocity dispersion (σ) relation based on stacked spectra of early-type galaxies with a high signal-to-noise ratio from the Sloan Digital Sky Survey. Using the penalized pixel-fitting (pPXF) method and the MILES single stellar population models, we fit a wide optical wavelength range to measure the net α-abundance. The combination of pPXF and α-enhanced MILES models incorrectly leads to an apparently decreasing trend of [α/Fe] with velocity dispersion. We interpret this result as a consequence of variations in the individual abundances of the different α-elements. This warrants caution for a naive use of full spectral fitting algorithms paired with stellar population models that do not take individual elemental abundance variations into account, especially when deriving averaged quantities such as the mean [α/Fe] of a stellar population. In addition, and based on line-strength measurements, we quantify the impact of a non-universal initial mass function on the recovered abundance pattern of galaxies. In particular, we find that a simultaneous fit of the slope of the initial mass function and the [Mg/Fe] results in a shallower [Mg/Fe]–σ relation. Therefore, our results suggest that star formation in massive galaxies lasted longer than what has been reported previously, although it still occurred significantly faster than in the solar neighbourhood.
期刊介绍:
Astronomy & Astrophysics is an international Journal that publishes papers on all aspects of astronomy and astrophysics (theoretical, observational, and instrumental) independently of the techniques used to obtain the results.