Pattern formation on a sphere.

Abstract

Pattern formation on the surface of a sphere is described by equations involving interactions of spherical harmonics of degree l. When l is even, the leading-order equations are determined uniquely by the symmetry, regardless of the physical context. Existence and stability results are found for even l up to l=12. Using either a variational or eigenvalue criterion, the preferred solution has icosahedral symmetry for l=6, l=10, and l=12. Numerical simulations of a model pattern-forming equation are in agreement with these theoretical predictions near onset and show more complex patterns further from onset.