Cometary Chemistry and the Origin of Icy Solar System Bodies, the view after Rosetta
Kathrin Altwegg, Hans Balsiger, Stephen A. Fuselier

TL;DR
Recent in situ and remote measurements, especially from the Rosetta mission, have significantly advanced our understanding of cometary chemistry, revealing diverse origins and potential contributions to Earth's volatiles and organics.
Contribution
This paper reviews recent cometary chemistry findings post-Rosetta, highlighting new molecular detections, isotopic ratios, and implications for solar system formation.
Findings
Rosetta doubled known cometary parent species and isotopic ratios.
Cometary ices share similarities with pre-stellar material.
Comets likely formed at low temperatures (20-30 K).
Abstract
In situ research on cometary chemistry began when measurements from the Giotto mission at comet 1P/Halley revealed the presence of complex organics in the coma. New telescopes and space missions have provided detailed remote and in situ measurements of the composition of cometary volatiles. Recently, the Rosetta mission to comet 67P/Churyumov-Gerasimenko more than doubled the number of parent species and the number of isotopic ratios known in comets. 39 of the 66 parent species have also been detected in pre- and proto-stellar clouds, making the similarities of cometary ices with pre-stellar material very intriguing. Most isotopic ratios are non-solar. The variations in D/H in water between different comets indicate a large range in the protoplanetary disk where comets formed. All of these results point to a non-homogeneized protoplanetary disk where comets received their material. This…
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