Kinetics and Nucleation Dynamics in Ion-Seeded Atomic Clusters
Abstract
The time-dependent kinetics of formation and evolution of nano-size atomic clusters is investigated and illustrated with the nucleation dynamics of ion-seed ArH particles. The rates of growth and degradation of Ar-atomic shells around the seed ion are inferred from Molecular Dynamics (MD) simulations. Simulations of cluster formation have been performed with accurate quantum-mechanical binary interaction potentials. Both the nonequilibrium and equilibrium growth of ArH are investigated at different temperature and densities of the atomic gas and seed ions. Formation of Ar shells is the main mechanism which regulates the kinetics of nano-cluster growth and the diffusive fluctuations of the cluster size distribution. The time-evolution of the cluster intrinsic energy and cluster size distributions are analyzed at the non-thermal, quasi-equilibrium, and thermal equilibrium stages of ArH formation. We've determined the self-consistent model parameters for the temporal fluctuations of the cluster size and found coefficients of the diffusive growth mechanism describing the equilibrium distribution of nano-clusters. Nucleation of haze and nano-dust particles in astrophysical and atmospheric ionized gases are discussed.
Cite
@article{arxiv.2109.09141,
title = {Kinetics and Nucleation Dynamics in Ion-Seeded Atomic Clusters},
author = {M. G. Rozman and M. Bredice and J. Smucker and H. R. Sadeghpour and D. Vrinceanu and R. Cote and V. Kharchenko},
journal= {arXiv preprint arXiv:2109.09141},
year = {2022}
}
Comments
12 pages, 10 figures