PDRs4All

IF 5.4 2区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS

Astronomy & Astrophysics Pub Date : 2024-08-30 DOI:10.1051/0004-6361/202450988

J. R. Goicoechea, J. Le Bourlot, J. H. Black, F. Alarcón, E. A. Bergin, O. Berné, E. Bron, A. Canin, E. Chapillon, R. Chown, E. Dartois, M. Gerin, E. Habart, T. J. Haworth, C. Joblin, O. Kannavou, F. Le Petit, T. Onaka, E. Peeters, J. Pety, E. Roueff, A. Sidhu, I. Schroetter, B. Tabone, A. G. G. M. Tielens, B. Trahin, D. Van De Putte, S. Vicente, M. Zannese

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We present the first detection of the [C I] 609 μm fine-structure (3P1–3P0) line of neutral carbon (C0), achieved with ALMA, toward one of these disks, d203-506, in the Orion Nebula Cluster. We also report the detection of [C I] forbidden and C I permitted lines (from electronically excited states up to ∼10 eV) observed with JWST in the near-infrared (NIR). These lines trace the irradiated outer disk and photo-evaporative wind. Contrary to the common belief that these NIR lines are C+ recombination lines, we find that they are dominated by FUV-pumping of C0 followed by fluorescence cascades. They trace the transition from atomic to molecular gas, and their intensities scale with G0. The lack of outstanding NIR O I fluorescent emission, however, implies a sharper attenuation of external FUV radiation with E ≳ 12 eV (λ ≲ Lyman-β). 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引用次数: 0

摘要

碳的气相丰度（xC = [C/H]gas = xC+ + xC0 + xCO + ...）及其耗竭因子是了解最终被纳入（外）行星的气体和固体成分的重要参数。大多数原行星盘诞生于星团中，因此会受到外部远紫外辐射（FUV）的影响。这些 FUV 光子可能会影响盘的演化、化学成分和激发线。我们利用 ALMA 首次探测到了猎户座星云星团中的一个中性碳（C0）的[C I] 609 μm 细结构（3P1-3P0）线，即 d203-506。我们还报告了利用 JWST 在近红外（NIR）观测到的[C I] 禁止和 C I 允许线（来自高达 ∼10 eV 的电子激发态）。这些谱线追踪了辐照外盘和光蒸发风。与一般认为这些近红外光线是C+重组线的观点相反，我们发现它们主要是由C0的FUV泵浦和荧光级联引起的。它们追溯了从原子气体到分子气体的转变过程，其强度与 G0 成比例。然而，由于缺乏突出的近红外 O I 荧光发射，这意味着 E ≳ 12 eV（λ ≲ Lyman-β）的外部 FUV 辐射衰减更为剧烈。这与尘埃的有效 FUV 吸收截面低于星际颗粒的吸收截面有关，意味着 C0 光离子化连续体对 FUV 的屏蔽作用更为突出。C I] 609 μm 线强度与 N(C0)成正比，可用来推断 xC。我们得出 xC ≃ 1.4 × 10-4。这意味着，与在原生云中测量到的 xC 相比，挥发性碳的消耗并不严重，这暗示了一个年轻的磁盘。我们还表明，外部 FUV 辐射通过垂直移动水的冻结深度来影响外盘和风，这可能会导致更低效率的晶粒生长和沉降。这种移动导致这些辐照层中的气相 C/O 丰度比接近太阳。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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PDRs4All

The gas-phase abundance of carbon, x_{C_{= [C/H]_{gas_{= x_{C^{+^{_{+ x_{C^{0^{_{+ x_{CO_{+ … , and its depletion factors are essential parameters for understanding the gas and solid compositions that are ultimately incorporated into (exo)planets. The majority of protoplanetary disks are born in clusters and, as a result, are exposed to external far-ultraviolet (FUV) radiation. These FUV photons potentially affect the disk’s evolution, chemical composition, and line excitation. We present the first detection of the [C I] 609 μm fine-structure (^{3^{P_{1_{–^{3^{P_{0_{) line of neutral carbon (C^{0^{), achieved with ALMA, toward one of these disks, d203-506, in the Orion Nebula Cluster. We also report the detection of [C I] forbidden and C I permitted lines (from electronically excited states up to ∼10 eV) observed with JWST in the near-infrared (NIR). These lines trace the irradiated outer disk and photo-evaporative wind. Contrary to the common belief that these NIR lines are C^{+^{recombination lines, we find that they are dominated by FUV-pumping of C^{0^{followed by fluorescence cascades. They trace the transition from atomic to molecular gas, and their intensities scale with G_{0_{. The lack of outstanding NIR O I fluorescent emission, however, implies a sharper attenuation of external FUV radiation with E ≳ 12 eV (λ ≲ Lyman-β). This is related to a lower effective FUV dust absorption cross section compared to that of interstellar grains, implying a more prominent role for FUV shielding by the C^{0^{photoionization continuum. The [C I] 609 μm line intensity is proportional to N(C^{0^{) and can be used to infer x_{C_{. We derive x_{C_{≃ 1.4 × 10^{−4^{. This implies that there is no major depletion of volatile carbon compared to x_{C_{measured in the natal cloud, hinting at a young disk. We also show that external FUV radiation impacts the outer disk and wind by vertically shifting the water freeze-out depth, which likely results in less efficient grain growth and settling. This shift leads to nearly solar gas-phase C/O abundance ratios in these irradiated layers.}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}

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来源期刊

Astronomy & Astrophysics 地学天文-天文与天体物理

CiteScore
10.20

自引率
27.70%

发文量
2105

审稿时长
1-2 weeks

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.

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