Mathematics – Differential Geometry
Scientific paper
2012-04-24
Mathematics
Differential Geometry
22 pages, 8 figures
Scientific paper
The shape of homogeneous, smooth convex bodies as described by the Euclidean distance from the center of gravity represents a rather restricted class M_C of Morse-Smale functions on S^2. Here we show that even M_C exhibits the complexity known for general Morse-Smale functions on S^2 by exhausting all combinatorial possibilities: every 2-colored quadrangulation of the sphere is isomorphic to a suitably represented Morse-Smale complex associated with a function in M_C (and vice versa). We prove our claim by an inductive algorithm, starting from the path graph P_2 and generating convex bodies corresponding to quadrangulations with increasing number of vertices by performing each combinatorially possible vertex splitting by a convexity- preserving local manipulation of the surface. Since convex bodies carrying Morse-Smale complexes isomorphic to P_2 exist, this algorithm not only proves our claim but also defines a hierarchical order among convex solids and general- izes the known classification scheme in [35], based on the number of equilibria. Our expansion algorithm is essentially the dual procedure to the algorithm presented by Edelsbrunner et al. in [19], producing a hierarchy of increasingly coarse Morse-Smale complexes. We point out applications to pebble shapes.
Domokos Gabor
Lángi Zsolt
Szabó Timea
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