| Title | R-O-C(triple bond)N species produced by ion irradiation of ice mixtures: comparison with astronomical observations. | | Author(s) | Palumbo ME, Strazzulla G, Pendleton YJ, Tielens AG | | Institution | Osservatorio Astrofisico di Catania, Viale A. Doria, Catania, Italy. mepalumbo@alpha4.ct.astro.it | | Source | Astrophys J 2000 May 10; 534(2 Pt 1):801-8. | | MeSH | Ammonia
Argon
Astronomy
Carbon Monoxide
Comparative Study
Exobiology
Extraterrestrial Environment
Helium
Hydrogen Cyanide
Ice
Ions
Methane
Nitriles
Nitrogen
Nitrogen Compounds
Research Support, Non-U.S. Gov't
Research Support, U.S. Gov't, Non-P.H.S.
Spectrophotometry, Infrared
| | Abstract | We have investigated the effects induced by ion bombardment of mixtures containing nitrogen-bearing compounds at low temperatures. The results show the formation of a band at 2080 cm-1 in binary mixtures, NH3:CH4 and N2:CH4, which we attribute to HCN embedded in the organic residue formed by ion irradiation. In addition to this band, ternary mixtures containing an oxygen-bearing species (i.e., H2O) form a compound with a prominent absorption band at about 2165 cm-1 (4.62 microns). We ascribe this band to a nitrile compound containing O that is bonded to the organic residue. A detailed comparison of the laboratory results with astronomical data of the 4.62 microns absorption band in protostellar spectra shows good agreement in peak position and profile. Our experimental studies show that N2, which is a more likely interstellar ice component than NH3, can be the molecular progenitor of the carrier of the interstellar band. This is an alternative to the pathway by which UV photolysis of NH3-containing ices produces the 4.62 microns band and implies that ion bombardment may well play an important role in the evolution of interstellar ices. Here, we discuss the implications of our studies for the chemical route by which the carrier of the 4.62 microns band is formed in these laboratory experiments. | | Language | eng | | Pub Type(s) | Journal Article
| | PubMed ID | 11543516 |
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