External Forces in the Continuum Limit of Discrete Systems with Non-Convex Interaction Potentials: Compactness for a G-Development

This paper is concerned with equilibrium configurations of one-dimensional particle systems with non-convex nearest-neighbour and next-to-nearest-neighbour interactions and its passage to the continuum. The goal is to derive compactness results for a Gamma-development of the energy with the novelty that external forces are allowed. In particular, the forces may depend on Lagrangian or Eulerian coordinates and thus may model dead as well as live loads. Our result is based on a new technique for deriving compactness results which are required for calculating the first-order Gamma-limit in the presence of external forces: instead of comparing a configuration of n atoms to a global minimizer of the Gamma-limit, we compare the configuration to a minimizer in some subclass of functions which in some sense are "close to" the configuration. The paper is complemented with the study of the minimizers of the Gamma-limit.