The critical role of negative-energy states in the Land\'e g-factor of lithium-like ions

Abstract

We report relativistic many-body calculations of the interelectronic-interaction correction to the Land\'e g-factor of the 2s1/2, 2p1/2, 2p3/2, and 3s1/2 states in lithium-like ions with nuclear charge Z = 4-20. Starting from the Dirac-Coulomb-Breit Hamiltonian, we treat positive-energy contributions using the coupled-cluster method with single and double excitations and include negative-energy contributions through third-order perturbation theory. We observe that negative-energy states give a state-dependent correction whose magnitude and sign vary with both Z and the state; for 2p1/2, the correction from the negative-energy states reaches 30\% of the total interelectronic-interaction contribution at Z = 20. Agreement with previous high-precision calculations is better than 0.1\%, confirming the reliability of the present approach. This work may serve as a valuable reference for future precise calculations of g-factors for many-electron atomic systems.