Predicting stability limits for pure and doped dicationic noble gas clusters undergoing coulomb explosion: A parallel tempering based study

Ghorai, Sankar; Chaudhury, Pinaki

doi:10.1002/jcc.25156

J Comput Chem

2017

DOI: 10.1002/jcc.25156

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Predicting stability limits for pure and doped dicationic noble gas clusters undergoing coulomb explosion: A parallel tempering based study

Sankar Ghorai

Pinaki Chaudhury

Abstract: We have used a replica exchange Monte-Carlo procedure, popularly known as Parallel Tempering, to study the problem of Coulomb explosion in homogeneous Ar and Xe dicationic clusters as well as mixed Ar-Xe dicationic clusters of varying sizes with different degrees of relative composition. All the clusters studied have two units of positive charges. The simulations reveal that in all the cases there is a cutoff size below which the clusters fragment. It is seen that for the case of pure Ar, the value is around 9… Show more

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Cited by 10 publications

References 67 publications

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Energetics and spectroscopic studies of CNO(‐)(H2O)n clusters and the temperature dependencies of the isomers: An approach based on a combined recipe of parallel tempering and quantum chemical methods

Naskar,

Talukder

2024

J Comput Chem

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A system associated with several number of weak interactions supports numerous number of stable structures within a narrow range of energy. Often, a deterministic search method fails to locate the global minimum geometry as well as important local minimum isomers for such systems. Therefore, in this work, the stochastic search technique, namely parallel tempering, has been executed on the quantum chemical surface of the system for –8 to generate global minimum as well as several number of local minimum isomers. IR spectrum can act as the fingerprint property for such system to be identified. Thus, IR spectroscopic features have also been included in this work. Vertical detachment energy has also been calculated to obtain clear information about number of water molecules in several spheres around the central anion. In addition, in a real experimental scenario, not only the global but also the local minimum isomers play an important role in determining the average value of a particular physically observable property. Therefore, the relative conformational populations have been determined for all the evaluated structures for the temperature range between 20K and 400K. Further to understand the phase change behavior, the configurational heat capacities have also been calculated for different sizes.

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Energetics and spectroscopic studies of CNO(‐)(H2O)n clusters and the temperature dependencies of the isomers: An approach based on a combined recipe of parallel tempering and quantum chemical methods

Naskar,

Talukder

2024

J Comput Chem

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An investigation on the structure, spectroscopy, and thermodynamic aspects of clusters: A combined Parallel tempering and DFT based study

Ghorai

Naskar

Chaudhury

2020

Int J of Quantum Chemistry

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The problem of identifying low‐energy structures of (n = 1‐6) was investigated, and the evaluation of important properties like heat capacity, solvation energy, and vertical detachment energy for each of the clusters was carried out. The problem was handled at two different theoretical levels. First, an adequately chosen empirical potential energy surface was used to account for the major interactions between the constituents of the cluster studied. Once the surface was chosen, the Parallel tempering algorithm was employed to search out the low‐energy critical points on this surface, which gave geometries at this level. To refine the structures further, these pre‐optimized structures were used as inputs for quantum chemical evaluation to complete the final refinement. To check whether the structures found were reasonable, sensitive properties like heat capacity, solvation energy, and vertical detachment energy were calculated. Then, an effort was made to understand and explain the variations in these properties with change in the cluster size. To understand the process of cluster formation further, thermodynamic aspects like △H (298.15 K), △G (298.15 K), and heat capacity (Cv) changes were also evaluated. Infrared spectroscopic features were also studied to see whether the introduction of the ion caused reasonable shifts compared to a pure water cluster.

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Construction of elementary reaction paths of pure and mixed Argon-Xenon clusters : a parallel tempering based study

2020

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Predicting stability limits for pure and doped dicationic noble gas clusters undergoing coulomb explosion: A parallel tempering based study

Cited by 10 publications

References 67 publications

Energetics and spectroscopic studies of CNO(‐)(H2O)n clusters and the temperature dependencies of the isomers: An approach based on a combined recipe of parallel tempering and quantum chemical methods

Energetics and spectroscopic studies of CNO(‐)(H2O)n clusters and the temperature dependencies of the isomers: An approach based on a combined recipe of parallel tempering and quantum chemical methods

An investigation on the structure, spectroscopy, and thermodynamic aspects of clusters: A combined Parallel tempering and DFT based study

Construction of elementary reaction paths of pure and mixed Argon-Xenon clusters : a parallel tempering based study

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