carbonberylliumlike

Carbonberylliumlike refers to atomic species that are isoelectronic with either carbon or beryllium, i.e., they have the same number of electrons as those neutral atoms: six for carbon-like and four for beryllium-like sequences. In practice, this means considering all ions and atoms that share the same electron configuration after accounting for the filled inner shells. The carbon-like sequence comprises ions with six electrons, typically described by a ground-state configuration close to [He] 2s2 2p2, while the Be-like sequence comprises ions with four electrons, near [He] 2s2. As the nuclear charge increases along either sequence, relativistic and quantum-electrodynamic effects become more pronounced, altering energy levels and transition probabilities.

Electronic structure and spectroscopy: In light systems, LS coupling provides a useful framework, with term symbols

Applications: Carbon-like and Be-like ions are central in high-precision atomic spectroscopy, astrophysical plasma diagnostics, and fusion

Methods: Theoretical approaches include multiconfiguration Dirac-Hartree-Fock, relativistic configuration-interaction, and many-body perturbation theory. Experimentally, measurements often employ

In summary, carbonberylliumlike encompasses the isoelectronic families with six and four electrons, providing a structured framework