The work performed during the project consisted in:
- the development of numerical codes to perform sophisticated variational calculations. The codes were written in Fortran 2008 and included an OpenMP+MPI parallel implementation.
- the realization of calculations for nuclei of interest using large-scale computer clusters.
- the writing of scientific publications to disseminate our results.
- giving oral presentations (in-person and online) in an academic setting to disseminate our results.
- reading the scientific literature on the topics of interest (e.g. ab initio theory)
Overview of the results:
- publication of 5 articles in peer-review journals, and submission of 3 others (currently under revision).
- publication of the numerical code TAURUS_vap (
https://github.com/project-taurus(si apre in una nuova finestra)).
- 2 grants for computational time (total: 2.8M CPU hours) in the Spanish computation network (FI-2021-2-0013, FI-2021-3-0004).
- systematic calculations in the sd shell and their comparison to the exact results obtained by diagonalization.
- calculations of Neon isotopes with a chiral interaction.
- calculations of Magnesium isotopes with a chiral interaction.
- writing of a pedagogical scientific article explaining the method of symmetry projection.
- development of a new method to build a two-body approximation to the three-body nuclear interaction.
- development of a new method to select the reference states in the configuration mixing calculations of the nuclear matrix element for the neutrinoless double beta decay.