1 v 1 2 0 M ay 1 99 9 1 Jacobi Elliptic Solutions of λφ 4 Theory in a Finite Domain

The general static solutions of the scalar field equation for the potential V (φ) = − 1 2 M 2 φ 2 + λ 4 φ 4 are determined for a finite domain in (1 + 1) dimensional space-time. A family of real solutions is described in terms of Jacobi Elliptic Functions. We show that the vacuum-vacuum boundary conditions can be reached by elliptic cn-type solutions in a finite domain, such as of the Kink, for which they are imposed at infinity. We proved uniqueness for elliptic sn-type solutions satisfying Dirichlet boundary conditions in a finite interval (box) as well the existence of a minimal mass corresponding to these solutions in a box. We define expressions for the " topological charge " , " total energy " (or classical mass) and " energy density " for elliptic sn-type solutions in a finite domain. For large length of the box the conserved charge, classical mass and energy density of the Kink are recovered. Also, we have shown that using periodic boundary conditions the results are the same as in the case of Dirich-let boundary conditions. In the case of anti-periodic boundary conditions all elliptic sn-type solutions are allowed.