Physics – Condensed Matter – Statistical Mechanics
Scientific paper
2010-09-29
Int. J. Mod. Phys. C21, 1341-1358 (2010)
Physics
Condensed Matter
Statistical Mechanics
9 figures
Scientific paper
10.1142/S0129183110015889
We study a surface model with a self-avoiding (SA) interaction using the canonical Monte Carlo simulation technique on fixed-connectivity (FC) triangulated lattices of sphere topology. The model is defined by an area energy, a deficit angle energy, and the SA potential. A pressure term is also included in the Hamiltonian. The volume enclosed by the surface is well defined because of the self-avoidance. We focus on whether or not the interaction influences the phase structure of the FC model under two different conditions of pressure ${\it \Delta} p$; zero and small negative. The results are compared with the previous results of the self-intersecting model, which has a rich variety of phases; the smooth spherical phase, the tubular phase, the linear phase, and the collapsed phase. We find that the influence of the SA interaction on the multitude of phases is almost negligible except for the evidence that no crumpled surface appears under ${\it \Delta} p\=\0$ at least even in the limit of zero bending rigidity $\alpha\to \0$. The Hausdorff dimension is obtained in the limit of $\alpha\to \0$ and compared with previous results of SA models, which are different from the one in this paper.
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