Evidence for Surprising Heavy Nitrogen Isotopic Enrichment in Comet 46P/Wirtanen's Hydrogen Cyanide

arXiv - PHYS - Earth and Planetary Astrophysics Pub Date : 2024-09-09 DOI:arxiv-2409.05711

M. A. Cordiner, K. Darnell, D. Bockeleé-Morvan, N. X. Roth, N. Biver, S. N. Milam, S. B. Charnley, J. Boissier, B. P. Bonev, C. Qi, J. Crovisier, A. J. Remijan

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Abstract

46P/Wirtanen is a Jupiter-family comet, probably originating from the Solar System's Kuiper belt, that now resides on a 5.4 year elliptical orbit. During its 2018 apparition, comet 46P passed unusually close to the Earth (within 0.08 au), presenting an outstanding opportunity for close-up observations of its inner coma. Here we present observations of HCN, H$^{13}$CN and HC$^{15}$N emission from 46P using the Atacama Compact Array (ACA). The data were analyzed using the SUBLIME non-LTE radiative transfer code to derive $^{12}$C/$^{13}$C and $^{14}$N/$^{15}$N ratios. The HCN/H$^{13}$CN ratio is found to be consistent with a lack of significant $^{13}$C fractionation, whereas the HCN/HC$^{15}$N ratio of $68\pm27$ (using our most conservative $1\sigma$ uncertainties), indicates a strong enhancement in $^{15}$N compared with the solar and terrestrial values. The observed $^{14}$N/$^{15}$N ratio is also significantly lower than the values of $\sim140$ found in previous comets, implying a strong $^{15}$N enrichment in 46P's HCN. This indicates that the nitrogen in Jupiter-family comets could reach larger isotopic enrichments than previously thought, with implications for the diversity of $^{14}$N/$^{15}$N ratios imprinted into icy bodies at the birth of the Solar System.

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46P/Wirtanen 彗星氰化氢中令人惊讶的重氮同位素富集证据

46P/Wirtanen是一颗木星族彗星，可能源自太阳系的柯伊伯带，现在位于一个5.4年的椭圆轨道上。在其 2018 年的显影期间，46P 彗星异常接近地球（0.08au 以内），为近距离观测其内层彗尾提供了绝佳机会。在此，我们利用阿塔卡马紧凑阵列（ACA）对 46P 的 HCN、H$^{13}$CN 和 HC$^{15}$Nemission 进行了观测。利用 SUBLIME 非 LTE 辐射传输代码对数据进行了分析，得出了 $^{12}$C/$^{13}$C 和 $^{14}$N/$^{15}$N 的比率。结果发现，HCN/H$^{13}$CN的比值与缺乏显著的$^{13}$C分馏是一致的，而HCN/HC$^{15}$N的比值为$68/pm27$（使用了我们最保守的$1\sigma$不确定度），表明与太阳和陆地的数值相比，$^{15}$N有很强的增强。观测到的$^{14}$N/$^{15}$N比值也明显低于之前在彗星中发现的$\sim140$值，这意味着46P的碳氢化合物中富含了大量的$^{15}$N。这表明木星眷属彗星中的氮的同位素富集程度可能比先前认为的要大，这对太阳系诞生时印刻在冰体中的$^{14}$N/$^{15}$N比率的多样性具有影响。

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arXiv - PHYS - Earth and Planetary Astrophysics

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