Development and assessment of hierarchical multi-reward reinforcement learning based potential for silicene with state-of-the-art models

A Koneru and PS Dutta and A Muhammed and H Chan and K Balasubramanian and S Manna and K Sasikumar and P Darancet and SKRS Sankaranarayanan, MATERIALS TODAY ADVANCES, 26, 100583 (2025).

DOI: 10.1016/j.mtadv.2025.100583

We develop a new interatomic force field for Silicene, a 2D material with a buckled hexagonal lattice structure with high polymorphism. We introduce new parameterizations of a Tersoff model using a hierarchical multi-reward reinforcement learning (RL) methodology coupled with a continuous Monte Carlo Tree Search optimization. Our model significantly outperforms existing methods by enhancing the accuracy of predictions for the structural and thermodynamic properties of seven silicene polymorphs-including structure, energy, equation of state, elasticity, and phonon dispersion-when compared to established models. We further make a comprehensive comparison of the various models in predicting the mechanical and thermal properties of silicene. We trace the origin of the improved performance to the description of the angular dependence in the bond-order term, suggesting that modifying the angular terms in short-range models is essential to capture the structural diversity in low dimensional systems.

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