Structural transition, orientational order, and anomalous specific heat in a two-dimensional dimer crystal of core-softened particles
Articolo
Data di Pubblicazione:
2024
Citazione:
Structural transition, orientational order, and anomalous specific heat in a two-dimensional dimer crystal of core-softened particles / D. Pini, T. Rovelli, F. Mambretti, D.E. Galli. - In: PHYSICAL REVIEW. E. - ISSN 2470-0045. - 109:3(2024 Mar 25), pp. 034128.1-034128.21. [10.1103/PhysRevE.109.034128]
Abstract:
Systems featuring hard-core–soft-shell repulsive pair potentials can form ordered phases, where particles organize themselves in aggregates with nontrivial geometries. The dimer crystal formed by one such potential, namely, the hard-core plus generalized exponential model of order 4, has been recently investigated, revealing a low-temperature structural phase transition, with the onset of nematic ordering of the dimers. In the present work, we aim to characterize this phase transition via a mean-field theory, by which a detailed analysis of the low-temperature properties of the system is carried out under quadrupole approximation. We determine the transition temperature and identify its order parameter, highlighting the link between the structural transition and the nematic ordering of the system. The first-order character of the transition is established and supported by the Landau expansion of the free energy in powers of the order parameter. The theory is subsequently generalized to take into account lattice vibrations and dimer length fluctuations. Finally, we provide an explanation for the anomalous behavior displayed by the specific heat in the vanishing-temperature limit, which is also supported by Monte Carlo simulations.
Tipologia IRIS:
01 - Articolo su periodico
Keywords:
cluster crystals; dimers; nematic phase; structural transition
Elenco autori:
D. Pini, T. Rovelli, F. Mambretti, D.E. Galli
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