Dense ball packings by tube manifolds as new models for hyperbolic crystallography

Abstract

We intend to continue our previous papers (MSz17 and MSz18, as indicated there) on dense ball packing hyperbolic space by equal balls, but here with centres belonging to different orbits of the fundamental group Cw(2z, 3 z ∈ , odd number), of our new series of tube or cobweb manifolds Cw = / with z-rotational symmetry. As we know, is a fixed-point-free isometry group, acting on discontinuously with appropriate tricky fundamental domain Cw, so that every point has a ball-like neighbourhood in the usual factor-topology. Our every Cw(2z) is minimal, i.e. does not cover regularly a smaller manifold. It can be derived by its general symmetry group (u, v, w = u) that is a complete Coxeter orthoscheme reflection group, extended by the half-turn (0 3, 1 2) of the complete orthoscheme A0A1A2A3 b0b1b2b3 (Fig.~1). The vertices A0 and A3 are outer points of the , as 1/u + 1/v 1/2 is required, 3 u = w, v for the above orthoscheme parameters. The situation is described first in Figure 1 of the half trunc-orthoscheme W and its usual extended Coxeter diagram, moreover, by the scalar product matrix (bij) = ( i, j ) in formula (1.1) and its inverse (Ajk) = ( j, k ) in (1.3). These will describe the hyperbolic angle and distance metric of the half trunc-orthoscheme W, then its ball packings, densities, then those of the manifolds Cw(2z). As first results we concentrate only on particular constructions by computer for probable material model realizations, atoms or molekules by equal balls, for general W(u;v;w=u) as well, summarized at the end of our paper.