AstroSat/UVIT Study of the Diffuse Ultraviolet Radiation in the Dwarf Galaxy Holmberg II

IF 3.3 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS
Olag Pratim Bordoloi, B. Ananthamoorthy, P. Shalima, Margarita Safonova, Debbijoy Bhattacharya, Yuri A. Shchekinov and Rupjyoti Gogoi
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Abstract

We present measurements of diffuse ultraviolet (UV) emission in the dwarf irregular galaxy Holmberg II obtained with the Ultra Violet Imaging Telescope (UVIT) instrument onboard AstroSat, India’s first multiwavelength space mission. With a spatial resolution of 1.″2–1.″6, these are the highest resolution UV observations of the galaxy to date. We find that diffuse emission accounts for ∼70.6% of the total far-ultraviolet (FUV) and for ~58.1% of the total near-ultraviolet (NUV) emission. In the FUV, this is reasonably close to the fraction reported for the SMC bar. We perform a UV–IR correlation study of the diffuse emission in this galaxy using infrared (IR) observations from the Spitzer Space Telescope and Herschel Space Observatory for selected locations, free of detectable bright point sources. The strongest positive correlation between FUV and IR is observed at 70 μm for high H i density (N(H i) > 1 × 1021 cm−2) locations, indicating that warm dust grains dominate the IR emission, in agreement with earlier studies, while NUV is better correlated with 160 μm emission associated with cold dust grains. Low H i density regions (N(H i) < 1 × 1021 cm−2), or cavities, do not show any significant UV–IR correlation except at 160 μm, implying either the presence of colder dust grains in cavities being irradiated by the general radiation field, or insufficient amount of dust. The dust scattering contribution in high H i density regions, estimated using a single scattering model with foreground dust clouds with LMC reddening, gives best-fit albedo and asymmetry factor values of α = 0.2 and g = 0.5, respectively, in reasonable agreement with the theoretical predictions for LMC dust. Our model-derived scattering optical depths in the FUV range from 0.02 to 0.12, implying the medium is optically thin. Therefore, in high H i density regions, dust scattering can be one of the sources of the observed diffuse UV emission, apart from possible contributions from H2 fluorescence. However, the diffuse UV component in H i cavities can only be explained via other mechanisms, such as two-photon emission.
AstroSat/UVIT 对矮星系霍尔姆伯格 II 漫紫外线辐射的研究
我们介绍了利用印度首次多波长太空任务 AstroSat 上的紫外线成像望远镜(UVIT)仪器对矮不规则星系 Holmberg II 的漫射紫外线(UV)发射的测量结果。空间分辨率为1.″2-1.″6,这是迄今为止对该星系进行的分辨率最高的紫外观测。我们发现弥散发射占远紫外(FUV)发射总量的70.6%,占近紫外(NUV)发射总量的58.1%。在远紫外波段,这与报告的SMC条带的比例相当接近。我们利用 Spitzer 空间望远镜和 Herschel 空间天文台的红外线(IR)观测数据,对这个星系的弥散发射进行了紫外-红外相关性研究。在高 H i 密度(N(H i) > 1 × 1021 cm-2)的 70 μm 处,观察到 FUV 和 IR 之间最强的正相关性,这表明暖尘粒在红外辐射中占主导地位,这与先前的研究一致,而 NUV 与冷尘粒相关的 160 μm 辐射的相关性更好。低 H i 密度区域(N(H i) < 1 × 1021 cm-2)或空穴,除 160 μm 外,没有显示出任何明显的紫外-红外相关性,这意味着空穴中存在较冷的尘粒,受到一般辐射场的照射,或者尘粒数量不足。在高 H i 密度区域的尘埃散射贡献,是用一个具有 LMC 红化的前景尘埃云的单一散射模型估算的,得出的最佳拟合反照率和不对称系数值分别为 α = 0.2 和 g = 0.5,与 LMC 尘埃的理论预测值相当一致。我们的模型推导出的 FUV 波段散射光深度在 0.02 到 0.12 之间,这意味着介质是光学稀薄的。因此,在高H i密度区域,除了可能来自H2荧光的贡献之外,尘埃散射可能是观测到的漫射紫外辐射的来源之一。然而,H i空腔中的漫射紫外线成分只能通过其他机制来解释,例如双光子发射。
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来源期刊
Publications of the Astronomical Society of the Pacific
Publications of the Astronomical Society of the Pacific 地学天文-天文与天体物理
CiteScore
6.70
自引率
5.70%
发文量
103
审稿时长
4-8 weeks
期刊介绍: The Publications of the Astronomical Society of the Pacific (PASP), the technical journal of the Astronomical Society of the Pacific (ASP), has been published regularly since 1889, and is an integral part of the ASP''s mission to advance the science of astronomy and disseminate astronomical information. The journal provides an outlet for astronomical results of a scientific nature and serves to keep readers in touch with current astronomical research. It contains refereed research and instrumentation articles, invited and contributed reviews, tutorials, and dissertation summaries.
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