Carbon isotope chemistry in protoplanetary disks: Effects of C/O ratios
Seokho Lee, Hideko Nomura, Kenji Furuya
arXiv:2404.01635v1 Announce Type: new
Abstract: Carbon isotope fractionation of CO has been reported in the disk around TW Hya,where elemental carbon is more abundant than elemental oxygen ([C/O]$_{rm elem}$> 1). We investigated the effects of the [C/O]$_{rm elem}$ ratio on carbon fractionation using astrochemical models that incorporate isotope-selective photodissociation and isotope-exchange reactions. The $^{12}$CO/$^{13}$CO ratio could be lower than the elemental carbon isotope ratio due to isotope exchange reactions when the [C/O]$_{rm elem}$ ratio exceeds unity. The observed $^{12}$CO/$^{13}$CO and H$^{12}$CN/H$^{13}$CN ratios around TW Hya could be reproduced when the [C/O]$_{rm elem}$ ratio is 2~5. In the vicinity of the lower boundary of the warm molecular layer, the formation of ices leads to the gas phase [C/O]$_{rm elem}$ ratio approaching unity, irrespective of the total (gas + ice) [C/O]$_{rm elem}$ ratio. This phenomenon reduces the variation in the $^{12}$CO/$^{13}$CO ratio across different [C/O]$_{rm elem}$ ratios.arXiv:2404.01635v1 Announce Type: new
Abstract: Carbon isotope fractionation of CO has been reported in the disk around TW Hya,where elemental carbon is more abundant than elemental oxygen ([C/O]$_{rm elem}$> 1). We investigated the effects of the [C/O]$_{rm elem}$ ratio on carbon fractionation using astrochemical models that incorporate isotope-selective photodissociation and isotope-exchange reactions. The $^{12}$CO/$^{13}$CO ratio could be lower than the elemental carbon isotope ratio due to isotope exchange reactions when the [C/O]$_{rm elem}$ ratio exceeds unity. The observed $^{12}$CO/$^{13}$CO and H$^{12}$CN/H$^{13}$CN ratios around TW Hya could be reproduced when the [C/O]$_{rm elem}$ ratio is 2~5. In the vicinity of the lower boundary of the warm molecular layer, the formation of ices leads to the gas phase [C/O]$_{rm elem}$ ratio approaching unity, irrespective of the total (gas + ice) [C/O]$_{rm elem}$ ratio. This phenomenon reduces the variation in the $^{12}$CO/$^{13}$CO ratio across different [C/O]$_{rm elem}$ ratios.