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Main Author: Cheng, YingXing
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.05394
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author Cheng, YingXing
author_facet Cheng, YingXing
contents In this study, we report a comprehensive calculation of static dipole polarizabilities for group 12 elements using the finite-field approach in conjunction with the relativistic coupled-cluster method, including single, double, and perturbative triple excitations. Relativistic effects are systematically explored, encompassing scalar-relativistic, spin-orbit coupling (SOC), and full Dirac-Coulomb contributions. The recommended polarizability values, with uncertainties, are $37.95 \pm 0.77$ a.u. for Zn, $45.68 \pm 1.21$ a.u. for Cd, $34.04 \pm 0.68$ a.u. for Hg, and $27.92 \pm 0.28$ a.u. for Cn. These results are in excellent agreement with the 2018 compilation of static dipole polarizabilities [Mol. Phys. \textbf{117}, 1200 (2019)] and reduce uncertainties for Cd and Cn. Our analysis demonstrates that scalar-relativistic effects dominate the relativistic corrections, with SOC contributions found to be negligible. The role of electron correlation is examined across all relativistic regimes, highlighting its critical importance in achieving accurate polarizability predictions.
format Preprint
id arxiv_https___arxiv_org_abs_2411_05394
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Relativistic and electron-correlation effects in static dipole polarizabilities for group 12 elements
Cheng, YingXing
Atomic Physics
In this study, we report a comprehensive calculation of static dipole polarizabilities for group 12 elements using the finite-field approach in conjunction with the relativistic coupled-cluster method, including single, double, and perturbative triple excitations. Relativistic effects are systematically explored, encompassing scalar-relativistic, spin-orbit coupling (SOC), and full Dirac-Coulomb contributions. The recommended polarizability values, with uncertainties, are $37.95 \pm 0.77$ a.u. for Zn, $45.68 \pm 1.21$ a.u. for Cd, $34.04 \pm 0.68$ a.u. for Hg, and $27.92 \pm 0.28$ a.u. for Cn. These results are in excellent agreement with the 2018 compilation of static dipole polarizabilities [Mol. Phys. \textbf{117}, 1200 (2019)] and reduce uncertainties for Cd and Cn. Our analysis demonstrates that scalar-relativistic effects dominate the relativistic corrections, with SOC contributions found to be negligible. The role of electron correlation is examined across all relativistic regimes, highlighting its critical importance in achieving accurate polarizability predictions.
title Relativistic and electron-correlation effects in static dipole polarizabilities for group 12 elements
topic Atomic Physics
url https://arxiv.org/abs/2411.05394