34 / 2020-02-19 14:20:28

Structure and dynamics of warm dense aluminum: a molecular dynamics study with density functional theory and deep potential

molecular dynamics, warm dense matter, density functional theory, deep potential molecular dynamics, orbital-free density functional theory, kinetic energy density functional

全体主题 > 高能量密度物理

We perform a systematic study on the structure and dynamics of warm dense aluminum (Al) at temperatures ranging from 0.5 to 5.0 eV with molecular dynamics utilizing both density functional theory (DFT) and the deep potential (DP) method. On one hand, unlike the Thomas–Fermi kinetic energy density functional (KEDF), we find that the orbital-free DFT method with the Wang–Teter non-local KEDF yields properties of warm dense Al that agree well with the Kohn–Sham DFT method, enabling accurate orbital-free DFT simulations of warm dense Al at relatively low temperatures. On the other hand, the DP method constructs a deep neural network that has a high accuracy in reproducing short- and long-ranged properties of warm dense Al when compared to the DFT methods. The DP method is orders of magnitudes faster than DFT and is well-suited for simulating large systems and long trajectories to yield accurate properties of warm dense Al. Our results suggest that the combination of DFT methods and the DP method is a powerful tool for accurately and efficiently simulating warm dense matter.