TL;DR
This paper explores a truncated BPS Skyrme model coupling pions with rho and a1 mesons, demonstrating reduced Skyrmion binding energies and improved nuclear mass predictions compared to the standard model.
Contribution
It introduces a simplified truncated model coupling pions to rho and a1 mesons, improving the accuracy of Skyrmion mass predictions with fewer parameters.
Findings
Coupling to rho meson reduces Skyrmion binding energies.
Including a1 meson further improves mass predictions.
Predicted masses are within 20 MeV of experimental values.
Abstract
Recently, it has been shown that (4+1)-dimensional Yang-Mills theory may be written as a (3+1)-dimensional BPS Skyrme model, in which the Skyrme field is coupled to an infinite tower of vector mesons. Truncating this tower to a single vector meson yields an extension of the standard Skyrme model to a theory of pions coupled to the rho meson, with the significant simplification that no additional free parameters are introduced. The present paper is concerned with this truncated theory and results are presented for Skyrmions with baryon numbers one to four. The approach involves the use of an extended version of the Atiyah-Manton construction, in which the Skyrme field is approximated by the holonomy of a Yang-Mills instanton. It is found that the coupling to the rho meson significantly reduces Skyrmion binding energies, to produce an improved comparison with the experimental data on…
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