A M\"obius invariant discretization and decomposition of the M\"obius energy

Abstract

The M\"obius energy, defined by O'Hara, is one of the knot energies, and named after the M\"obius invariant property which was shown by Freedman-He-Wang. The energy can be decomposed into three parts, each of which is M\"obius invariant, proved by Ishizeki-Nagasawa. Several discrete versions of M\"obius energy, that is, corresponding energies for polygons, are known, and it showed that they converge to the continuum version as the number of vertices to infinity. However already-known discrete energies lost the property of M\"obius invariance, nor the M\"obius invariant decomposition. Here a new discretization of the M\"obius energy is proposed. It has the M\"obius invariant property, and can be decomposed into the M\"obius invariant components which converge to the original components of decomposition in the continuum limit. Though the decomposed energies are M\"obius invariant, their densities are not. As a by-product, it is shown that the decomposed energies have alternative representation with the M\"obius invariant densities.