Classifying metal-poor stars with machine learning using nucleosynthesis calculations

Abstract

We apply the capabilities of machine learning (ML) to discern patterns in order to classify metal-poor stars. To do so, we train an ML model on a bank of nucleosynthesis calculations derived from hydrodynamic simulations for events such as neutron star mergers where the rapid (r) neutron capture process can take place. Likewise we consider a bank of calculations from simulations of the slow (s) neutron capture process and also consider a few calculations for the intermediate (i) neutron capture process. We demonstrate that the ML does well overall in recognizing the s process from the r process, and after training on theoretical calculations ML stellar assignments match conventional labels 87% of the time. We highlight that this method then points to stars that could benefit from additional observational measurements. We also demonstrate that the ML assigns some of the presently considered i-process stars to instead be of r or s in origin, but likewise, finds stars currently labeled as s to be potentially more aligned with i enrichment. This first application of ML to classify metal-poor star enrichment using theoretical nucleosynthesis calculations thus reveals the promise, and some challenges, associated with this new data-driven path forward.