Irradiation of a stellar atmosphere by an external source (e.g., an AGN) changes its structure and therefore its spectrum. Using a state-of-the-art stellar atmosphere code, we calculate the infrared spectra of such irradiated and transformed stars. We show that the original spectrum of the star, which is dominated by molecular bands, changes dramatically when irradiated even by a low-luminosity AGN (LX = 1033 ergs s-1), becoming dominated by atomic lines in absorption. We study the changes in the spectrum of low-mass carbon- and oxygen-rich giant stars as they are irradiated by a modest AGN, similar to the one at the Galactic center (GC). The resulting spectra are similar to those of the faintest S-cluster stars observed in the GC. The spectrum of a star irradiated by a much brighter AGN, like that powered by a tidally disrupted star, is very different from that of any star currently observed near the GC. For the first time, we have discovered that the structure of the atmosphere of an irradiated giant changes dramatically and induces a double inversion layer. We show that irradiation at the current level can explain the observed trend of CO-band intensities decreasing as a function of increasing proximity to Sgr A*. This may indicate that (contrary to previous claims) there is no paucity of old giants in the GC, which coexist simultaneously with young massive stars.
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机译:外部光源(例如AGN)对恒星大气的辐照会改变其结构,从而改变其光谱。使用最新的恒星大气代码,我们可以计算出此类辐照和转换后的恒星的红外光谱。我们显示,由分子谱带控制的恒星原始光谱,即使被低发光度的AGN(LX = 1033 ergs s-1)照射时,也会发生巨大变化,在吸收过程中被原子线占据主导地位。我们研究了由适度的AGN辐照的低质量富含碳和氧的巨星的光谱变化,类似于银河系中心(GC)的变化。所得光谱类似于在GC中观察到的最微弱的S簇星的光谱。由更明亮的AGN照射的恒星光谱,如由潮汐破裂的恒星驱动的光谱,与目前在GC附近观测到的任何恒星的光谱都非常不同。第一次,我们发现被辐照的大气层的结构发生了巨大变化,并引起了双重反转层。我们表明,当前水平的辐照可以解释观察到的CO谱带强度随Sgr A *的增加而降低的趋势。这可能表明(与先前的说法相反)GC中没有稀少的老巨星,它们与年轻的大质量恒星同时存在。
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