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Cold Deuterium Fractionation in the Nearest Planet-Forming Disk

Authors :
Muñoz-Romero, Carlos E.
Öberg, Karin I.
Law, Charles J.
Teague, Richard
Aikawa, Yuri
Bergner, Jennifer B.
Wilner, David J.
Huang, Jane
Guzmán, Viviana V.
Cleeves, L. Ilsedore
Publication Year :
2022

Abstract

Deuterium fractionation provides a window to the thermal history of volatiles in the solar system and protoplanetary disks. While evidence of active molecular deuteration has been observed towards a handful of disks, it remains unclear whether this chemistry affects the composition of forming planetesimals due to limited observational constraints on the radial and vertical distribution of deuterated molecules. To shed light on this question, we introduce new ALMA observations of DCO$^+$ and DCN $J=2-1$ at an angular resolution of $0.5"$ (30 au) and combine them with archival data of higher energy transitions towards the protoplanetary disk around TW Hya. We carry out a radial excitation analysis assuming both LTE and non-LTE to localize the physical conditions traced by DCO$^+$ and DCN emission in the disk, thus assessing deuterium fractionation efficiencies and pathways at different disk locations. We find similar disk-averaged column densities of $1.9\times10^{12}$ and $9.8\times10^{11}$ cm$^{-2}$ for DCO$^{+}$ and DCN, with typical kinetic temperatures for both molecules of 20-30K, indicating a common origin near the comet- and planet-forming midplane. The observed DCO$^+$/DCN abundance ratio, combined with recent modeling results, provide tentative evidence of a gas phase C/O enhancement within $<40$ au. Observations of DCO$^+$ and DCN in other disks, as well as HCN and HCO$^+$, will be necessary to place the trends exhibited by TW Hya in context, and fully constrain the main deuteration mechanisms in disks.<br />Comment: Fixed author information

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2212.06912
Document Type :
Working Paper
Full Text :
https://doi.org/10.3847/1538-4357/aca765