Argon cluster evaporation dynamics Journal Articles

abstract

• Expansion of argon clusters in a vacuum is simulated via molecular dynamics computations. The resulting evaporation dynamics is investigated with observations of temperature and pV energy loss curves. Observed cooling curves (T vs n) and collapse curves (pV/n vs n) are found to depend on final cluster size but not the initial cluster ensemble. The evaporation mechanism consists of an initial rapid cooling-and-collapse stage of a preliquid dense-gas-like cluster, followed by ‘‘equilibrium’’ evaporation, and then another cooling stage of the resulting relatively incompressible liquidlike subcluster. Elements of this dynamics evaporation mechanism are tested by examination of finite n phase diagrams constructed using Metropolis Monte Carlo simulations of the fixed T and p ensemble.

authors

• Dumont, Randall
• Jain, Shashi
• Basile, Anthony G

status

• published 

publication date

• March 8, 1995

has subject area

• 02 Physical Sciences (FoR)
• 03 Chemical Sciences (FoR)
• 09 Engineering (FoR)
• Chemical Physics (Science Metrix)

published in

• Journal of Chemical Physics  Journal

keywords

• Chemistry
• Chemistry, Physical
• MOLECULAR-DYNAMICS
• Physical Sciences
• Physics
• Physics, Atomic, Molecular & Chemical
• RARE-GAS CLUSTERS
• Science & Technology
• TRANSITIONS

Digital Object Identifier (DOI)

• 10.1063/1.469470

start page

• 4227

end page

• 4238

volume

• 102

issue

• 10