https://doi.org/10.1140/epjd/e2007-00137-2
Non-monotonic size effects on the structure and thermodynamics of Coulomb clusters in three-dimensional harmonic traps
1
Laboratoire de Chimie et Physique Quantiques, IRSAMC, Université Paul Sabatier, 118 route de Narbonne, 31062 Toulouse Cedex, France
2
Koç University, Rumelifeneriyolu, Sariyer, 34450 Istanbul, Turkey
Corresponding author: a fcalvo@lasim.univ-lyon1.fr
Received:
20
October
2006
Revised:
12
January
2007
Published online:
28
March
2007
Finite-size effects on the static and thermodynamical properties of small three-dimensional clusters of identical charged particles confined by an harmonic trap are investigated using global optimization and numerical simulations. The relative stabilities of clusters containing up to 100 particles are estimated from the second energy derivatives, as well as from the energy gap between the two lowest-energy structures at a given size. We also provide a lower bound for the number of permutationally independent minima, as a function of size, up to n=75. Molecular dynamics and exchange Monte Carlo simulations are performed to get insight into the finite temperature behaviour of these clusters. By focusing on specific sizes, we illustrate the interplay between the stable structures, the possible competition between different isomers, and the melting point. In particular, we find that the orientational melting phenomenon known in two-dimensional clusters has an equivalent form in some three-dimensional clusters. The vibrational spectra, computed for all sizes up to 100, shows an increasing number of low-frequency modes, but comparing to hydrodynamical theory reveals strong correlation effects. Finally, we investigate the effects of the trap anisotropy on the general shape of Coulomb clusters, and on the melting point of a selected case.
PACS: 36.40.Mr – Spectroscopy and geometrical structure of clusters / 36.40.Ei – Phase transitions in clusters / 64.60.Cn – Order-disorder transformations; statistical mechanics of model systems / 68.65.-k – Low-dimensional, mesoscopic, and nanoscale systems: structure and nonelectronic properties
© EDP Sciences, Società Italiana di Fisica, Springer-Verlag, 2007