Exploring the Truth and Beauty of Theory Landscapes with Machine Learning

POSTER

Abstract

Theoretical physicists describe nature by i) building a theory model and ii) determining the model parameters. The latter step involves the dual aspect of both fitting to the existing experimental data and satisfying abstract criteria like beauty, naturalness, etc. We use the Yukawa quark sector as a toy example to demonstrate how both of those tasks can be accomplished with machine learning techniques. We propose loss functions whose minimization results in true models that are also beautiful as measured by three different criteria — uniformity, sparsity, or symmetry.

*Work supported in part by the U.S. Department of Energy award number DE-SC0022148.

Publication: K. T. Matchev, K. Matcheva, P. Ramond and S. Verner, ``Exploring the truth and beauty of theory landscapes with machine learning,''
Phys. Lett. B 856, 138941 (2024) doi:10.1016/j.physletb.2024.138941 [arXiv:2401.11513 [hep-ph]].

Presenters

  • Konstantin T Matchev

    • University of Florida

Authors

  • Konstantin T Matchev

    • University of Florida

  • Katia Matcheva

    • University of Florida

  • Pierre Ramond

    • University of Florida

  • Sarunas Verner

    • University of Minnesota