15min:

VALENTINE WAKELAM, Department of Physics, The Ohio State University, Columbus, OH 43210, USA; ERIC HERBST, Departments of Physics, Astronomy and Chemistry, The Ohio State University, Columbus, OH 43210, USA; FRANCK SELSIS AND GERARD MASSACRIER, Centre de Recherche Astronomique de Lyon, Ecole Normale Supérieure, 46 Allée d'Italie, F-69364 Lyon cedex 7, France .

The equations describing the chemical evolution of quiescent cores (aka molecular clouds) are highly non linear and may result in extreme sensitivity to the initial conditions (for instance, bistability) or to some of the parameters. Applying a Monte Carlo method, which we developed to compute the theoretical abundance errors due to the rate coefficient uncertainties, we have found a new manifestation of this non-linearity that has important implications in interstellar chemistry. Some of the calculated molecular abundances prove to be extremely sensitive to the ratio _He/ _{H_2}, where is the ionization rate by cosmic-rays. A small change in this ratio can result in a sharp transition between two different chemical compositions of the gas. The two phases may differ by 4 and 3 orders of magnitude in the atomic carbon and molecular oxygen abundances, respectively. In some conditions (elemental abundances and H₂ density), this high sensitivity even leads to a bistable solution, depending on the chosen initial set of abundances. In this presentation, we would like to present the effects and implications of this newly found sensitivity and bistability.