Detection of Deuterated Hydrocarbon Nanoparticles in the Whirlpool Galaxy, M51

The Astrophysical Journal Letters Pub Date : 2025-05-06 DOI:10.3847/2041-8213/adc991

B. T. Draine, Karin Sandstrom, Daniel A. Dale, J.-D. T. Smith, Ryan Chown, Grant P. Donnelly, Sara E. Duval, Cory M. Whitcomb, Angela Adamo, L. Armus, Danielle A. Berg, Torsten Böker, Alberto D. Bolatto, Martha L. Boyer, Daniela Calzetti, B. G. Elmegreen, Brandt A. L. Gaches, Karl D. Gordon, L. K. Hunt, R. C. Kennicutt, Ralf S. Klessen, Thomas S.-Y. Lai, Adam K. Leroy, Sean T. Linden, Alex Pedrini, Noah S. J. Rogers, Julia C. Roman-Duval, Eva Schinnerer, Evan B. Skillman, Fabian Walter, Tony D. Weinbeck and Benjamin F. Williams

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Abstract

Deuteration of hydrocarbon material, including polycyclic aromatic hydrocarbons (PAHs), has been proposed to account for the low gas-phase abundances of D in the interstellar medium (ISM). JWST spectra of four star-forming regions in M51 show an emission feature, with central wavelength ∼4.647 μm and FWHM 0.0265 μm, corresponding to the C–D stretching mode in aliphatic hydrocarbons. The emitting aliphatic material is estimated to have (D/H)aliph. ≈0.17 ± 0.02—a factor of ∼104 enrichment relative to the overall ISM. On ∼50 pc scales, deuteration levels toward four H ii regions in M51 are 2–3 times higher than in the Orion Bar photodissociation region (PDR), with implications for the processes responsible for the formation and evolution of hydrocarbon nanoparticles, including PAHs. The deuteration of the aliphatic material is found to anticorrelate with helium ionization in the associated H ii, suggesting that harsh far-UV radiation may act to lower the deuteration of aliphatics in PDRs near massive stars. No evidence is found for deuteration of aromatic material, with (D/H)arom. ≲ 0.016: deuteration of the aliphatic material exceeds that of the aromatic material by at least a factor of 10. The observed levels of deuteration may account for the depletion of D observed in the Galactic ISM. If so, the 4.65 μm feature may be detectable in absorption.

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漩涡星系M51中氘化烃纳米颗粒的检测

包括多环芳烃（PAHs）在内的碳氢化合物物质的氘化作用被认为是星际介质（ISM）中D气相丰度低的原因。M51中四个恒星形成区的JWST光谱显示出中心波长为~ 4.647 μm， FWHM为0.0265 μm的发射特征，对应于脂肪烃的C-D拉伸模式。发射的脂肪族物质估计有（D/H）脂肪。相对于总体ISM，富集系数≈0.17±0.02-a ~ 104。在~ 50pc的尺度上，M51中四个H区域的氘化水平比猎户座Bar光解离区（PDR）高2-3倍，这意味着碳氢化合物纳米颗粒（包括多环芳烃）的形成和演化过程。研究发现，脂肪族物质的氘化程度与相关氢离子中的氦电离程度呈反相关，这表明在大质量恒星附近的pdr中，强烈的远紫外辐射可能会降低脂肪族物质的氘化程度。没有发现具有（D/H）芳香物质氘化的证据。> 0.016：脂肪类物质的氘化程度超过芳香类物质的氘化程度至少10倍。观测到的氘化水平可能解释了银河系中观测到的D的耗尽。如果是这样，则可以在吸收中检测到4.65 μm特征。

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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The Astrophysical Journal Letters

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