The study presents a comprehensive investigation of the static dipole polarizabilities of group 11 elements (Cu, Ag, and Au) using relativistic coupled-cluster methods. The key highlights and insights are:
Relativistic effects, including scalar-relativistic, spin-orbit coupling (SOC), and fully relativistic Dirac-Coulomb contributions, are systematically analyzed. The results show that scalar-relativistic effects are the dominant relativistic contribution, while SOC effects are negligible for these elements.
Electron-correlation effects are found to play a significant role in accurately determining the dipole polarizabilities across all relativistic regimes. The influence of electron correlation increases with atomic number, with the maximum contribution observed for Ag.
The final recommended dipole polarizability values, including uncertainties, are 46.91 ± 1.30 for Cu, 50.97 ± 1.88 for Ag, and 36.68 ± 0.62 for Au. These values are in good agreement with the previously recommended values, with reduced uncertainties for Ag and Au.
The analysis provides important insights into the interplay between relativistic and electron-correlation effects on atomic properties, which is crucial for the development of accurate computational methods and the interpretation of experimental data.
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by YingXing Che... um arxiv.org 10-03-2024
https://arxiv.org/pdf/2410.01493.pdfTiefere Fragen