Analyses for Mechanical Stability for Systems of Ions and Atoms Associated with Rings, Cages, and Crypts.
Abstract
There exist examples of systems in which small, simple metallic cations are associated with ring-like molecules (e.g., aromatic radical anions), with aggregates of molecules which encage the ion (e.g., solvation and coordination), or special molecules which trap ions within the molecular structure (crypts). For each of these examples, the harmonic oscillations of the ion in the presence of the molecular structure can be observed. Moreover, in many instances, the stability of the ionic motions in the presence of the molecular structure is important in considering some form of transport process which is associated with the ion. In this paper we present an analysis of the mechanics of the motion of an ion under the influence of various molecular structures. For our analyses, we use a form of symmetry-adapted Taylor series which we recently developed. We determine the positions of equilibrium for the ion in the presence of a continuous ring, a polygon and a polyhedron of sourses for the pair-wise forces. We also determine the states of stability for the positions of equilibrium through an examination of the second order terms in the Taylor series.
Document Details
- Document Type
- Technical Report
- Publication Date
- Aug 02, 1981
- Accession Number
- ADA103995
Entities
People
- J. M. Mckinley
- P. P. Schmidt
Organizations
- Oakland University