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Application of Stochastic and Deterministic Approaches to Modeling Interstellar Chemistry

Posted on:2012-05-01Degree:Ph.DType:Dissertation
University:The Ohio State UniversityCandidate:Pei, YezheFull Text:PDF
GTID:1450390011450542Subject:Physics
Abstract/Summary:
This work is about simulations of interstellar chemistry using the deterministic rate equation (RE) method and the stochastic moment equation (ME) method.;Primordial metal-poor interstellar medium (ISM) is of our interest and the socalled "Population-II" stars could have been formed in this environment during the "Epoch of Reionization" in the baby universe. We build a gas phase model using the RE scheme to describe the ionization-powered interstellar chemistry. We demonstrate that OH replaces CO as the most abundant metal-bearing molecule in such interstellar clouds of the early universe.;Grain surface reactions play an important role in the studies of astrochemistry. But the lack of an accurate yet effective simulation method still presents a challenge, especially for large, practical gas-grain system. We develop a hybrid scheme of moment equations and rate equations (HMR) for large gas-grain network to model astrochemical reactions in the interstellar clouds. Specifically, we have used a large chemical gas-grain model, with stochastic moment equations to treat the surface chemistry and deterministic rate equations to treat the gas phase chemistry, to simulate astrochemical systems as of the ISM in the Milky Way, the Large Magellanic Cloud (LMC) and Small Magellanic Cloud (SMC). We compare the results to those of pure rate equations and modified rate equations and present a discussion about how moment equations improve our theoretical modeling and how the abundances of the assorted species are changed by varied metallicity. We also model the observed composition of H2O, CO and CO2 ices toward Young Stellar Objects in the LMC and show that the HMR method gives a better match to the observation than the pure RE method.
Keywords/Search Tags:Interstellar, Chemistry, Method, Stochastic, Deterministic, Model, Rate, Moment
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