Document Zbl 1535.81144

Smits, O. R.; Indelicato, P.; Nazarewicz, W.; Piibeleht, M.; Schwerdtfeger, P.

Pushing the limits of the periodic table – a review on atomic relativistic electronic structure theory and calculations for the superheavy elements. (English) Zbl 1535.81144

Phys. Rep. 1035, 1-57 (2023).

Summary: We review the progress in atomic structure theory with a focus on superheavy elements and their predicted ground state configurations important for an element’s placement in the periodic table. To understand the electronic structure and correlations in the regime of large atomic numbers, it is essential to correctly solve the Dirac equation in strong Coulomb fields, and to take into account quantum electrodynamic effects. We specifically focus on the fundamental difficulties encountered when dealing with the many-particle Dirac equation. We further discuss the possibility for future many-electron atomic structure calculations going beyond the critical nuclear charge \(Z_{\mathrm{crit}} \approx 170\), where levels such as the \(1s\) shell dive into the negative energy continuum (\(E_{n\kappa} < - m_e c^2\)). The nature of the resulting Gamow states within a rigged Hilbert space formalism is highlighted.

MSC:

81R25	Spinor and twistor methods applied to problems in quantum theory
81V10	Electromagnetic interaction; quantum electrodynamics
81V35	Nuclear physics
81V45	Atomic physics
35P15	Estimates of eigenvalues in context of PDEs
47A70	(Generalized) eigenfunction expansions of linear operators; rigged Hilbert spaces

Keywords:

Dirac equation; quantum electrodynamics; superheavy elements; Gamow states; atomic structure theory

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