| Title : Alcohol chemistry in the galactic center | |||||
| Authors : MA Requena Torres, J. martin Pintado | |||||
| Abstract : | |||||
| We have carried out a systematic study of methanol, ethanol, dimethyl | |||||
| ether, methyl formate, formic acid and acetic acid in different galactic center | |||||
| clouds. The abundances of methanol ranges for few $10^{-8}$ to $10^{-6}$. The | |||||
| abundances of ethanol, dimethyl ether and methyl formate are a factor of | |||||
| $\sim 20$ smaller than those of methanol. It is interesting to note that the | |||||
| abundance ratios of these molecules relative to methanol are really constant to | |||||
| with in a factor $\sim 4-8$. In fact, there is a systematic trend to decrease | |||||
| the abundance ratio as the methanol abundance increase. Our data is compared | |||||
| with homogeneous observations of the same molecules in hot cores. The ratios of | |||||
| these complex molecules with respect to methanol are similar to that found in | |||||
| the GC clouds. Alcohol chemistry is believed to be driven by evaporation of | |||||
| alcohol from grain mantles. If a time dependent model of these characteristics | |||||
| is applied in the GC clouds, all the galactic center region had to have suffered | |||||
| large scale shocks in a short period of time of $10^{4}-10^{5}$ years ago. This | |||||
| is unfeasible since the observed region in the GC cover about 200 | |||||
| parsecs. This fact and the similar comportment presented by the | |||||
| different molecules suggest that the alcohol chemistry could be | |||||
| produce in the grain mantles. Also, two different regions, the Sickle | |||||
| and The Thermal Arches, present lower abundances in the observed | |||||
| molecules which could be photodissociated by the same source that heat | |||||
| and ionize these clouds leading a different chemical evolution. | |||||