Publications [#379879] of Weitao Yang

Journal Articles

1. Li, J; Jin, Y; Yu, J; Yang, W; Zhu, T, Particle-Particle Random Phase Approximation for Predicting Correlated Excited States of Point Defects., Journal of chemical theory and computation (September, 2024) [doi]
   (last updated on 2025/02/02)

   Abstract:
   The particle-particle random phase approximation (ppRPA) within the hole-hole channel was recently proposed as an efficient tool for computing excitation energies of point defects in solids [J. Phys. Chem. Lett. 2024, 15, 2757-2764]. In this work, we investigate the application of ppRPA within the particle-particle channel for predicting correlated excited states of point defects, including the carbon-vacancy (VC) in diamond, the oxygen-vacancy (VO) in magnesium oxide (MgO), and the carbon dimer defect (C_BC_N) in two-dimensional hexagonal boron nitride (h-BN). Starting from a density functional theory calculation of the (N - 2)-electron ground state, vertical excitation energies of the N-electron system are obtained as the differences between the two-electron addition energies. We show that active-space ppRPA with the B3LYP functional yields accurate excitation energies, with errors mostly smaller than 0.1 eV for tested systems compared to available experimental values. We further develop a natural transition orbital scheme within ppRPA, which provides insights into the multireference character of defect states. This study, together with our previous work, establishes ppRPA as a low-cost and accurate method for investigating excited-state properties of point defect systems.