Lattice studies of Sp(2N) gauge theories using GRID

Authors

Niccolò Forzano
Ed Bennett
Peter Boyle
Luigi Del Debbio
Deog Ki Hong
Jong-Wan Lee
Julian Lenz
C. -J. David Lin
Biagio Lucini
Alessandro Lupo
Maurizio Piai
Davide Vadacchino, School of Engineering, Computing and Mathematics

ORCID

• Davide Vadacchino: 0000-0002-5783-5602

Abstract

Four-dimensional gauge theories based on symplectic Lie groups provide elegant realisations of the microscopic origin of several new physics models. Numerical studies pursued on the lattice provide quantitative information necessary for phenomenological applications. To this purpose, we implemented Sp(2N) gauge theories using Monte Carlo techniques within Grid, a performant framework designed for the numerical study of quantum field theories on the lattice. We show the first results obtained using this library, focusing on the case-study provided by the Sp(4) theory coupled to Nas = 4 Wilson-Dirac fermions transforming in the 2-index antisymmetric representation. In particular, we discuss preliminary tests of the algorithm and we test some of its main functionalities.

DOI

10.48550/arxiv.2310.02111

Publication Date

2023-10-03

Keywords

hep-lat, hep-ph

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-No Derivative Works 4.0 International License.

Recommended Citation

Forzano, N., Bennett, E., Boyle, P., Debbio, L., Hong, D., Lee, J., Lenz, J., Lin, C., Lucini, B., Lupo, A., Piai, M., & Vadacchino, D. (2023) 'Lattice studies of Sp(2N) gauge theories using GRID', Available at: 10.48550/arxiv.2310.02111