A consistent two-skyrmion configuration space from instantons

TL;DR

This paper proposes using the instanton moduli space to construct a consistent and mathematically well-defined configuration space for skyrmions, linking instantons, mesons, and skyrmion dynamics.

Contribution

It introduces a novel framework that uses instanton moduli space to define the skyrmion configuration space, including interactions and zero modes.

Findings

The instanton moduli space can generate unique skyrmions.

Two skyrmions can excite meson fields through scattering.

The approach provides a manifold description of the two-skyrmion space.

Abstract

To study a nuclear system in the Skyrme model one must first construct a space of low energy Skyrme configurations. However, there is no mathematical definition of this configuration space and there is not even consensus on its fundamental properties, such as its dimension. Here, we propose that the full instanton moduli space can be used to construct a consistent skyrmion configuration space, provided that the Skyrme model is coupled to a meson. Each instanton generates a unique skyrmion and we reinterpret the $8N$ instanton moduli as physical degrees of freedom in the Skyrme model. In this picture a single skyrmion has six zero modes and two non-zero modes: one controls the overall scale of the solution and one the energy of the meson field. We study the $N=1$ and $N=2$ systems in detail. Two interacting skyrmions can excite the meson field through scattering, suggesting that the meson and Skyrme fields are intrinsically linked. Our proposal is the first consistent manifold description of the two-skyrmion configuration space. The method can also be generalised to higher $N$ and thus provides a general framework to study any skyrmion configuration space.