Astrochemistry at Millimetre and Submillimetre Wavelengths
Doctoral thesis, 2009

The focus of this thesis is a series of observational tests, aiming to clarify the chemical and physical origin of interstellar molecules. Spectral lines at millimetre and submillimetre wavelengths, caused by rotational transitions in CO, H2O, NH3, CH3OH, CH3SH, C2H3CN, and several of their isotopologues, have been observed towards regions of star-formation in the Galaxy. Maps of extended H2O and CO emission from the Orion nebula demonstrate that the water probably is localised to the photon-dominated region at the surface of the molecular cloud, at higher abundances than previously thought. Water is also observed in absorption from its ground-state towards the massive star-forming region Sgr B2. Curiously enough, a water abundance similar to the one reported for Orion is found in the low-excitation gas in one of the Galactic spiral arms. Ammonia absorption was also observed from diffuse spiral arm clouds along the same line-of-sight, but at about an order of magnitude lower abundance. The observed water and ammonia absorptions caused by the Sgr B2 cloud itself are successfully modelled without invoking a morphological component of hot gas. Two independent methods of analysis are applied to observations of methanol (CH3OH) and its 13C isotopologue in the cold envelopes of young stellar objects. Both methods indicate that methanol is mainly formed by hydrogenation of CO on cold dust grains. A study comparing the interstellar abundances of CH3SH (methyl mercaptan) and CH3OH unveil a possible trend of lower relative CH3SH abundances in more evolved objects. However, the significance of this trend, in relation to the chemical origin of these molecules, needs to be further investigated. In addition, searches for two pre-biotic molecules, namely vinyl acetylene (C2H3CCH) and amino acetonitrile (H2NCH2CN), resulting in improved upper abundance limits are presented. A comprehensive conclusion of this thesis is that in order to exploit the full capacity of high-quality observations there is a serious need for additional theoretical and laboratory investigations of processes like proton-exchange reactions, collision rates, freeze-out and desorption, all taking into account different isotopologues and spin-types.

Astrobiology - Astrochemistry - ISM: abundances - ISM: molecules - Submillimetre

EA
Opponent: Maryvonne Gerin

Author

Eva Wirström

Chalmers, Department of Radio and Space Science, Radio Astronomy and Astrophysics

Odin * CO and 13CO J=5-4 mapping of Orion KL - a step towards accurate water abundances

Astronomy & Astrophysics,;Vol. 453(2006)p. 979-987

Journal article

A search for pre-biotic molecules in hot cores

Astronomy and Astrophysics,;Vol. 473(2007)p. 177-180

Journal article

Subject Categories

Astronomy, Astrophysics and Cosmology

ISBN

978-91-7385-353-8

Doktorsavhandlingar vid Chalmers tekniska högskola. Ny serie: 3034

EA

Opponent: Maryvonne Gerin

More information

Created

10/7/2017