通过对综合光谱的光谱拟合,我们能在多大程度上确定年龄和化学丰度?

Geraldo Gonçalves, P. Coelho, R. Schiavon, C. Usher
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引用次数: 2

摘要

像素到像素的光谱拟合技术经常用于恒星群的研究。它使用户能够从集成光谱中推断出几个参数,如年龄和化学丰度。在本文中,我们研究了推断参数如何随波长范围的选择而变化的问题。我们从文献中使用了两个不同的球状星团(GCs)的综合光谱库,并使用代码Starlight将它们拟合到恒星人口模型中。我们使用光谱的不同区域进行测试,以推断发红,年龄,[Fe/H]和[α /Fe]。将我们的结果与等时拟合的年龄值和高分辨率光谱的化学丰度进行比较,我们发现:(1)推断参数随所用波长范围的变化而变化;(2)一般来说,该方法可以获得较好的变红估计,特别是当拟合的波长范围较宽时;(3)测定年龄、[Fe/H]和[α /Fe]的理想光谱区分别为:4170 ~ 5540a、5280 ~ 7020a和4828 ~ 5364a;(4)与等时拟合结果相比,旧贫金属物体的反演年龄值可能要小几个Gyr。我们得出结论,根据感兴趣的参数和精度要求,拟合最大可能的波长范围不一定是最好的策略。
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How well can we determine ages and chemical abundances from spectral fitting of integrated light spectra?
The pixel-to-pixel spectral fitting technique is often used in studies of stellar populations. It enables the user to infer several parameters from integrated light spectra such as ages and chemical abundances. In this paper, we examine the question of how the inferred parameters change with the choice of wavelength range used. We have employed two different libraries of integrated light spectra of globular clusters (GCs) from the literature and fitted them to stellar population models using the code Starlight. We performed tests using different regions of the spectra to infer reddening, ages, [Fe/H] and [alpha/Fe]. Comparing our results to age values obtained from isochrone fitting and chemical abundances from high resolution spectroscopy, we find that: (1) The inferred parameters change with the wavelength range used; (2) The method in general retrieves good reddening estimates, specially when a wider wavelength range is fitted; (3) The ideal spectral regions for determination of age, [Fe/H], and [alpha/Fe] are: 4170-5540A, 5280-7020A, and 4828-5364A, respectively; (4) The retrieved age values for old metal-poor objects can be several Gyr younger than those resulting from isochrone fitting. We conclude that, depending on the parameter of interest and the accuracy requirements, fitting the largest possible wavelength range may not necessarily be the best strategy.
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