Physics – Condensed Matter – Soft Condensed Matter
Scientific paper
2004-06-03
Physics
Condensed Matter
Soft Condensed Matter
14 pages including 8 figures
Scientific paper
We present the results of extensive numerical self-consistent field (SCF) and 3-dimensional off-lattice Monte Carlo (MC) studies of a spherical brush confined into a spherical cavity. The monomer density profile and the cavity pressure have been measured in systems where curvature of the cavity has an important effect on the polymer brush conformation. A direct comparison between the SCF and MC methods reveals the SCF calculation to be a valuable alternative to MC simulations in the case of free and softly compressed brushes. In the case of strongly compressed systems we have proposed an extension of the Flory theory for polymer solutions, whose predictions are found to be in good agreement with the MC simulations and has the advantage of being computationally inexpensive. In the range of high compressions, we have found the monomer volume fraction $v$ to follow a scale relationship with the cavity pressure $P$, $P \sim v^\alpha$. SCF calculations give $\alpha=2.15 \pm 0.05$, close to {\em des Cloiseaux law ($\alpha=9/4$)}, whereas MC simulations lead to $\alpha=2.73 \pm 0.04$. We conclude that the higher value of $\alpha$ obtained with MC comes from the monomer density correlations not included in the SCF formalism.
Cerdá Juan J.
Sintes Tomas
Toral Raul
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