Computational investigation of static multipole polarizabilities and sum rules for ground-state hydrogen-like ions

Abstract

High precision multipole polarizabilities, α for 4 of the 1s ground state of the hydrogen isoelectronic series are obtained from the Dirac equation using the B-spline method with Notre Dame boundary conditions. Compact analytic expressions for the polarizabilities as a function of Z with a relative accuracy of 10-6 up to Z = 100 are determined by fitting to the calculated polarizabilities. The oscillator strengths satisfy the sum rules Σi f()0i = 0 for all multipoles from = 1 to = 4. The dispersion coefficients for the long-range H-H and H-He+ interactions are given.