The five longest tune-out wavelengths for the rubidium atom are predicted from existing experimental and theoretical information by using an approximation formula. The formula is derived from the analysis of a non- re...The five longest tune-out wavelengths for the rubidium atom are predicted from existing experimental and theoretical information by using an approximation formula. The formula is derived from the analysis of a non- relativistic configuration-interaction plus core polarization (CICP) calculation of the tune-out wavelengths for rubidium. The differences between the wavelengths predicted from the approximation formula and the exact CICP calculation are at the 10-3 nm level. The predicted five longest tune-out wavelengths are 790.115nm, 423.155nm, 421.111 nm, 359.429nm, and 359.022nm, respectively.展开更多
基金Supported by the National Natural Science Foundation of China under Grant Nos 11304063 and 11174066the Youth Foundation of Liaoning Normal University under Grant No LS2014L002
文摘The five longest tune-out wavelengths for the rubidium atom are predicted from existing experimental and theoretical information by using an approximation formula. The formula is derived from the analysis of a non- relativistic configuration-interaction plus core polarization (CICP) calculation of the tune-out wavelengths for rubidium. The differences between the wavelengths predicted from the approximation formula and the exact CICP calculation are at the 10-3 nm level. The predicted five longest tune-out wavelengths are 790.115nm, 423.155nm, 421.111 nm, 359.429nm, and 359.022nm, respectively.
