PDRs4All

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

Astronomy & Astrophysics Pub Date : 2025-04-08 DOI:10.1051/0004-6361/202453350

J. R. Goicoechea, J. Pety, S. Cuadrado, O. Berné, E. Dartois, M. Gerin, C. Joblin, J. Kłos, F. Lique, T. Onaka, E. Peeters, A. G. G. M. Tielens, F. Alarcón, E. Bron, J. Cami, A. Canin, E. Chapillon, R. Chown, A. Fuente, E. Habart, O. Kannavou, F. Le Petit, M. G. Santa-Maria, I. Schroetter, A. Sidhu, B. Trahin, D. Van De Putte, M. Zannese

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引用次数: 0

摘要

多环芳烃（PAHs）的红外辐射，以及原子碳和简单碳氢化合物的红外辐射，是恒星远紫外线（FUV）辐射与分子云之间相互作用的有力示踪剂。我们在[C I] 609 μm （3P1−3P0）、C2H （N = 4−3）和C18O （J = 3−2）发射线上绘制了猎户座Bar光解区（PDR）的亚弧秒分辨率ALMA拼接图，并补充了H2和芳香红外波段（AIB）发射的JWST图像。我们使用最新的PDR和辐射传输模型来解释数据，包括高温C2H (X2 Σ+)-o/p-H2和C (3P)-o/p-H2非弹性碰撞率系数（我们计算后者高达3000 K）。棒的边缘显示出由小规模H2解离锋（DFs）组成的波纹状和线状结构。[C I] 609 μm的发射峰与主要的h2发射df非常接近（约0.002 pc），表明存在气体密度梯度。这些df也很明亮，C2H的发射也非常相似，这可以追溯到“碳氢自由基峰”，其特征是非常高的C2H丰度，达到×10−7。C2H和相关碳氢化合物自由基（如CH3、CH2和CH）的高丰度可归因于温度升高、C+和C的存在以及fuv泵送H2的反应性驱动的气相反应。烃自由基峰与3.4/3.3 μm AIB强度比的最大值大致重合，该强度比代表了多环芳烃中脂肪族与芳烃的含量。这意味着触发简单碳氢化合物形成的条件也有利于具有脂肪侧基的多环芳烃的形成（和生存），可能是通过自下而上的过程的贡献，在这个过程中，丰富的碳氢化合物自由基与多环芳烃原位反应。在DFs之前，在原子PDR区（[H] > [H2]）， AIB发射是最亮的，但小的PAHs和碳质颗粒由于更强的FUV场而进行光处理。我们在这个区域检测到痕量的C2H可能是由于这些物种的光侵蚀。本研究提供了PDR中关键碳载体的化学分层的空间解析视图。总的来说，自下而上和自上而下的过程似乎都将分子云中的简单碳氢化合物分子与多环芳烃联系起来；然而，确切的化学途径及其相对贡献仍有待量化。

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 infrared emission from polycyclic aromatic hydrocarbons (PAHs), along with emission from atomic carbon and simple hydrocarbons, is a robust tracer of the interaction between stellar far-UV (FUV) radiation and molecular clouds. We present subarcsecond-resolution ALMA mosaics of the Orion Bar photodissociation region (PDR) in [C I] 609 μm (^{3^{P_{1_{−^{3^{P_{0_{), C_{2_{H (N = 4−3), and C^{18^{O (J = 3−2) emission lines complemented by JWST images of H_{2_{and aromatic infrared band (AIB) emission. We interpreted the data using up-to-date PDR and radiative transfer models, including high-temperature C_{2_{H (X^{2^{Σ^{+^{)-o/p-H_{2_{and C (^{3^{P)-o/p-H_{2_{inelastic collision rate coefficients (we computed the latter up to 3000 K). The rim of the Bar shows very corrugated and filamentary structures made of small-scale H_{2_{dissociation fronts (DFs). The [C I] 609 μm emission peaks very close (≲ 0.002 pc) to the main H_{2_{-emitting DFs, suggesting the presence of gas density gradients. These DFs are also bright and remarkably similar in C_{2_{H emission, which traces “hydrocarbon radical peaks” characterized by very high C_{2_{H abundances, reaching up to several ×10^{−7^{. The high abundance of C_{2_{H and of related hydrocarbon radicals, such as CH_{3_{, CH_{2_{, and CH, can be attributed to gas-phase reactions driven by elevated temperatures, the presence of C^{+^{and C, and the reactivity of FUV-pumped H_{2_{. The hydrocarbon radical peaks roughly coincide with maxima of the 3.4/3.3 μm AIB intensity ratio, which is a proxy for the aliphatic-to-aromatic content of PAHs. This implies that the conditions triggering the formation of simple hydrocarbons also favor the formation (and survival) of PAHs with aliphatic side groups, potentially via the contribution of bottom-up processes in which abundant hydrocarbon radicals react in situ with PAHs. Ahead of the DFs, in the atomic PDR zone (where [H] ≫ [H_{2_{]), the AIB emission is the brightest, but small PAHs and carbonaceous grains undergo photo-processing due to the stronger FUV field. Our detection of trace amounts of C_{2_{H in this zone may result from the photoerosion of these species. This study provides a spatially resolved view of the chemical stratification of key carbon carriers in a PDR. Overall, both bottom-up and top-down processes appear to link simple hydrocarbon molecules with PAHs in molecular clouds; however, the exact chemical pathways and their relative contributions remain to be quantified.}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}

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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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