Computational Study of the Structure and Thermodynamic Properties of Ammonium Chloride Clusters Using a Parallel J-Walking Approach

Albert Nerken School of Engineering; Alexander Matro; Art; David L. Freeman (Department of Chemistry; Kingston; New York; NY); Rhode Island); Robert Q. Topper (Department of Chemistry; The Cooper Union for the Advancement of Science

arxiv: chem-ph/9602005 · v1 · submitted 1996-02-27 · chem-ph · physics.chem-ph

Computational Study of the Structure and Thermodynamic Properties of Ammonium Chloride Clusters Using a Parallel J-Walking Approach

Alexander Matro , David L. Freeman (Department of Chemistry , University of Rhode Island , Kingston , Rhode Island) , Robert Q. Topper (Department of Chemistry , The Cooper Union for the Advancement of Science , Art

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Albert Nerken School of Engineering New York NY)

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classification chem-ph physics.chem-ph

keywords clusterparallelammoniumcapacityclustersenergyheatisomers

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The thermodynamic and structural properties of (NH$_4$Cl)$_n$ clusters, n=3-10 are studied. Using the method of simulated annealing, the geometries of several isomers for each cluster size are examined. Jump-walking Monte Carlo simulations are then used to compute the constant-volume heat capacity for each cluster size over a wide temperature range. To carry out these simulations a new parallel algorithm is developed using the Parallel Virtual Machine (PVM) software package. Features of the cluster potential energy surfaces, such as energy differences among isomers and rotational barriers of the ammonium ions, are found to play important roles in determining the shape of the heat capacity curves.

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Computational Study of the Structure and Thermodynamic Properties of Ammonium Chloride Clusters Using a Parallel J-Walking Approach

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