Relativistic calculations of C6 and C8 coefficients for strontium dimers

Abstract

The electric dipole and quadrupole polarizabilities of the 5s5p~3\!P1o state and the C6 and C8 coefficients for the 1\!S0 +\, 1\!S0 and 1\!S0 +\, 3\!P1o dimers of strontium are calculated using a high-precision relativistic approach that combines configuration interaction and linearized coupled-cluster methods. Our recommended values of the long range dispersion coefficients for the 0u and 1u energy levels are C6(0u)=3771(32) a.u. and C6(1u)= 4001(33) a.u., respectively. They are in good agreement with recent results from experimental photoassociation data. We also calculate C8 coefficients for Sr dimers, which are needed for precise determination of long-range interaction potential. We confirm the experimental value for the magic wavelength, where the Stark shift on the 1\!S0-3\!P1o transition vanishes. The accuracy of calculations is analyzed and uncertainties are assigned to all quantities reported in this work.