UV photolysis, organic molecules in young disks, and the origin of meteoritic amino acids

The origin of complex organic molecules such as amino acids and their precursors found in meteorites and comets is unknown. Previous studies have accounted for the complex organic inventory of the Solar System by aqueous chemistry on warm meteoritic parent bodies, or by accretion of organics formed in the interstellar medium. This paper proposes a third possibility: that complex organics were created in situ by ultraviolet light from nearby O/B stars irradiating ices already in the Sun’s protoplanetary disk. If the Sun was born in a dense cluster near UV-bright stars, the flux hitting the disk from external stars could be many orders of magnitude higher than that from the Sun alone. Such photolysis of ices in the laboratory can rapidly produce amino acid precursors and other complex organic molecules. I present a simple model coupling grain growth and UV exposure in a young circumstellar disk. It is shown that the production may be sufficient to create the Solar System’s entire complex organic inventory within 106 yr. Subsequent aqueous alteration on meteoritic parent bodies is not ruled out.

Research highlights► Many solar systems form in clusters near UV-bright stars. ► UV radiation can create organic molecules from simple ices. ► UV radiaton can also create organic chemistry of meteorites. ► Model quantitatively explains Solar System’s early organic makeup ► Process could explain Earth’s pre-biotic organic abundances.