Processing of hydrocarbon dust in star-forming galaxies revealed with AKARI

IF 2.2 4区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS
Tsubasa Kondo, Akino Kondo, Katsuhiro L Murata, Takuma Kokusho, Shinki Oyabu, Toyoaki Suzuki, Risako Katayama, Hidehiro Kaneda
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Abstract

Hydrocarbon dust is one of the dominant components of interstellar dust, which mainly consists of polycyclic aromatic hydrocarbons and aliphatic hydrocarbons. While hydrocarbon dust is thought to be processed in interstellar radiation fields or shocks, detailed processing mechanisms are not completely understood yet. We investigate the processing of hydrocarbon dust by analyzing the relation between the luminosities emitted by hydrocarbon dust and the total infrared luminosities $(L_{\mathrm{IR}})$ for 138 star-forming galaxies at redshift $z \lt 0.3$. Using near-infrared 2.5–5$\, \mu {\rm m}$ spectra obtained with AKARI, we derived the luminosities of the aromatic hydrocarbon feature at 3.3$\, \mu {\rm m}$ ($L_\mathrm{aromatic}$) and the aliphatic hydrocarbon feature at 3.4–3.6$\, \mu {\rm m}$ ($L_\mathrm{aliphatic}$). We also derived $L_\mathrm{IR}$ and the radiation field strength by modeling the spectral energy distributions of the 138 galaxies with AKARI, WISE, and IRAS photometry data. We find that galaxies with higher $L_\mathrm{IR}$ tend to exhibit lower $L_\mathrm{aliphatic}/L_\mathrm{aromatic}$ ratios. Furthermore, we find that there is an anti-correlation between $L_\mathrm{aliphatic}/L_\mathrm{aromatic}$ ratios and the radiation field strength, and also that the galaxies with low $L_\mathrm{aliphatic}/L_\mathrm{aromatic}$ ratios are dominated by merger galaxies. These results support the suggestion that hydrocarbon dust is processed through photodissociation in strong radiation fields and/or shocks during merging processes of galaxies; the $L_\mathrm{aliphatic}/L_\mathrm{aromatic}$ ratio is likely to decrease in such harsh interstellar conditions since the aliphatic bonds are known to be chemically weaker than the aromatic bonds.
利用 AKARI 发现恒星形成星系中碳氢化合物尘埃的处理过程
碳氢化合物尘埃是星际尘埃的主要成分之一,主要由多环芳香烃和脂肪烃组成。虽然碳氢化合物尘埃被认为是在星际辐射场或冲击中被处理的,但详细的处理机制还不完全清楚。我们通过分析138个红移为$z \lt 0.3$的恒星形成星系中碳氢化合物尘埃发出的光度与总红外光度$(L_{\mathrm{IR}})$之间的关系来研究碳氢化合物尘埃的处理过程。利用AKARI获得的2.5-5, \mu {\rm m}$近红外光谱,我们得出了3.3, \mu {\rm m}$处的芳香烃特征($L_\mathrm{aromatic}$)和3.4-3.6, \mu {\rm m}$处的脂肪烃特征($L_\mathrm{aliphatic}$)的光度。我们还利用AKARI、WISE和IRAS的测光数据,对138个星系的光谱能量分布进行建模,得出了$L_\mathrm{IR}$和辐射场强。我们发现$L_\mathrm{IR}$较高的星系往往表现出较低的$L_\mathrm{脂肪族}/L_\mathrm{芳香族}$比率。此外,我们还发现$L_\mathrm{aliphatic}/L_mathrm{aromatic}$比值与辐射场强之间存在反相关关系,而且低$L_\mathrm{aliphatic}/L_mathrm{aromatic}$比值的星系主要是合并星系。这些结果支持这样一种观点,即碳氢化合物尘埃是在星系合并过程中,在强辐射场和/或冲击下通过光解离处理的;在这种恶劣的星际条件下,$L_\mathrm{脂肪族}/L__\mathrm{芳香族}$比值很可能会降低,因为众所周知脂肪族键的化学性质比芳香族键弱。
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来源期刊
Publications of the Astronomical Society of Japan
Publications of the Astronomical Society of Japan 地学天文-天文与天体物理
CiteScore
4.10
自引率
13.00%
发文量
98
审稿时长
4-8 weeks
期刊介绍: Publications of the Astronomical Society of Japan (PASJ) publishes the results of original research in all aspects of astronomy, astrophysics, and fields closely related to them.
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