Agúndez M, Marcelino N, Cernicharo J
Instituto de Física Fundamental, CSIC, C/ Serrano 123, 28006 Madrid, Spain.
Astrophys J Lett. 2018 Jul 10;861(2). doi: 10.3847/2041-8213/aad089. Epub 2018 Jul 13.
It is thought that dicyanopolyynes could be potentially abundant interstellar molecules, although their lack of dipole moment makes it impossible to detect them through radioastronomical techniques. Recently, the simplest member of this chemical family, cyanogen (NCCN), was indirectly probed for the first time in interstellar space through the detection of its protonated form toward the dense clouds L483 and TMC-1. Here we present a second firm evidence of the presence of NCCN in interstellar space, namely the detection of the metastable and polar isomer isocyanogen (CNCN). This species has been identified in L483 and tentatively in TMC-1 by observing various rotational transitions in the λ 3 mm band with the IRAM 30m telescope. We derive beam-averaged column densities for CNCN of 1.6 × 10 cm in L483 and 9 × 10 cm in TMC-1, which imply fractional abundances relative to H in the range (5 - 9) × 10. While the presence of NCCN in interstellar clouds seems out of doubt owing to the detection of NCCNH and CNCN, putting tight constraints on its abundance is still hampered by the poor knowledge of the chemistry that links NCCN with NCCNH and especially with CNCN. We estimate that NCCN could be fairly abundant, in the range 10-10 relative to H, as other abundant nitriles like HCN and HCN.
人们认为二氰多炔可能是潜在丰富的星际分子,尽管它们缺乏偶极矩,使得无法通过射电天文技术检测到它们。最近,这个化学家族中最简单的成员氰(NCCN)首次在星际空间中通过检测其质子化形式朝向致密云L483和TMC - 1被间接探测到。在此,我们给出星际空间中存在NCCN的第二个确凿证据,即检测到亚稳态且极性的异构体异氰(CNCN)。通过使用IRAM 30米望远镜观测λ 3毫米波段的各种转动跃迁,已在L483中鉴定出该物种,并在TMC - 1中初步鉴定出。我们得出L483中CNCN的束平均柱密度为1.6×10厘米,TMC - 1中为9×10厘米,这意味着相对于H的分数丰度在(5 - 9)×10范围内。虽然由于检测到NCCNH和CNCN,星际云中存在NCCN似乎毫无疑问,但由于对将NCCN与NCCNH尤其是与CNCN联系起来的化学过程了解不足,对其丰度进行严格限制仍然受到阻碍。我们估计NCCN可能相当丰富,相对于H在10 - 10范围内,与其他丰富的腈如HCN和HCN一样。