Physics-enhanced neural networks for equation-of-state calculations

Author:

Callow Timothy JORCID,Nikl JanORCID,Kraisler EliORCID,Cangi AttilaORCID

Abstract

Abstract Rapid access to accurate equation-of-state (EOS) data is crucial in the warm-dense matter (WDM) regime, as it is employed in various applications, such as providing input for hydrodynamic codes to model inertial confinement fusion processes. In this study, we develop neural network models for predicting the EOS based on first-principles data. The first model utilises basic physical properties, while the second model incorporates more sophisticated physical information, using output from average-atom (AA) calculations as features. AA models are often noted for providing a reasonable balance of accuracy and speed; however, our comparison of AA models and higher-fidelity calculations shows that more accurate models are required in the WDM regime. Both the neural network models we propose, particularly the physics-enhanced one, demonstrate significant potential as accurate and efficient methods for computing EOS data in WDM.

Publisher

IOP Publishing

Subject

Artificial Intelligence,Human-Computer Interaction,Software

Reference127 articles.

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2. Experimental methods for warm dense matter research;Falk;High Power Laser Sci. Eng.,2018

3. Ab initio simulation of warm dense matter;Bonitz;Phys. Plasmas,2020

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