The geometry of point particles
Copyright policy )The geometry of point particles
There is a very natural map from the configuration space of n distinct points in Euclidean 3-space into the flag manifold U(n)/U(1)^n, which is compatible with the action of the symmetric group. The map is well-defined for all configurations of points provided a certain conjecture holds, for which we provide numerical evidence. We propose some additional conjectures, which imply the first, and test these numerically. Motivated by the above map, we define a geometrical multi-particle energy function and compute the energy minimizing configurations for up to 32 particles. These configurations comprise the vertices of polyhedral structures which are dual to those found in a number of complicated physical theories, such as Skyrmions and fullerenes. Comparisons with 2-particle and 3-particle energy functions are made. The planar restriction and the generalization to hyperbolic 3-space are also investigated.
32 pages, including 8 figures
- Durham University United Kingdom
- University of Kent United Kingdom
- University of Edinburgh United Kingdom
High Energy Physics - Theory, Energy, geometry, Discriminantal varieties and configuration spaces in algebraic topology, energy minimization, Applications of variational problems in infinite-dimensional spaces to the sciences, Geometry, FOS: Physical sciences, polyhedra, Point, Minimization, Particles, High Energy Physics - Theory (hep-th), point particles, Differential geometric methods, including holonomy, Berry and Hannay phases, Aharonov-Bohm effect, etc. in quantum theory, Polyhedra
High Energy Physics - Theory, Energy, geometry, Discriminantal varieties and configuration spaces in algebraic topology, energy minimization, Applications of variational problems in infinite-dimensional spaces to the sciences, Geometry, FOS: Physical sciences, polyhedra, Point, Minimization, Particles, High Energy Physics - Theory (hep-th), point particles, Differential geometric methods, including holonomy, Berry and Hannay phases, Aharonov-Bohm effect, etc. in quantum theory, Polyhedra
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