The procedure to successfully conduct the project was clear and it involved the acquisition of the transferable skills of numerical calculations, more concretely with the writing of parallel numerical codes using MPI (Message Passing Interface) to be run on Hamilton, the Durham University HPC cluster. Due to the ambition of the enterprise, a solid basis in both numerical calculation and MPI language was necessary. It is for this reason that an important part of the fellowship was spent in ensuring both skills. Indeed, as a check, the main results of the usual Skyrme model as well as its 2 dimensional version were successfully reproduced by a parallelised code.
The project aim was delivered in two steps giving rise to two novel papers in important journals (one still to be published). As it was also done in the past with the standard Skyrme model, we studied, at the initial stage, the inclusion of the rho meson for massless pions. This surprisingly decreased nuclear binding energies from the excess appearing in the standard description to values less than 4%, moving Skyrmion theory closer to experimental data. Then, the pion mass was included in the model with the outstanding result of the cluster structure appearance. This can be seen in the figure bellow, where the a) subfigure corresponds to the standard version of the model with very symmetric configurations while the c) subfigure shows the cluster structure arising with the inclusion of the rho meson. In addition, a comparison of nuclear masses within the two models to experimental data is included in b).
The importance of the project undertaken has allowed to disseminate the results worldwide with the attendance to conferences and workshop not only in UK but also in Poland or Brazil. In addition, seminars as invited speaker have been delivered in countries like USA or Japan. The audience was within the “Skyrmion community” in some cases, with other talks given to a more general public from particle and nuclear physics and even condensed matter physics, promoting a fruitful exchange among different fields.