The structure of polymer chains in confinement. A Monte Carlo study

This paper uses Monte Carlo simulation on a diamond lattice model to calculate the dimension of a polymer chain confined in a sphere while considering the hindrances of bond angle and potential barrier. The results agree with those of Wu Da~hen~ and Qian Renyuan et el. Further, an empirical formula

In order to determine the structure and the dynamical properties of branched polymers in a random environment an idealized model was developed and studied by means of the Monte Carlo method. All atomic details were suppressed and the chain was represented as a sequence of identical beads. The model

We investigate the changes in the average chain length of a solution of semi-flexible living polymers between two hard repulsive walls as the width of the slit, D, is varied. Two different Monte Carlo models, that of the 'slithering snake' and of the 'independent monomer states' are employed in ord

## Abstract Self‐avoiding walks (SAWs) and random‐flight walks (RFWs) of various lengths embedded on a simple cubic lattice have been computer generated inside cubes of varying side. If __B__ is the side of the confining cube, we define the reduced cube side size __B__~0~ as __B__~0~ = (__B__ − 1)/