Eigenvalues and expectation values for the 1s²2s ²S, 1s²2p ²P, and 1s²3d ²D states of lithium

High-precision variational eigenvalues for the 1s²2s ²S, 1s²2p ²P, and 1s²3d ²D states of lithium are calculated using multiple basis sets in Hylleraas coordinates. Convergence to a few parts in 10¹⁰–10¹¹ is achieved. The nonrelativistic energies for infinite nuclear mass are -7.478 060 323 10(31) a.u. for the 1s²2s ²S state, -7.410 156 521 8(13) a.u. for the 1s²2p ²P state, and -7.335 523 541 10(43) a.u. for the 1s²3d ²D state. The corresponding specific isotope shifts due to mass polarization are also calculated with similar accuracy. The 1s²2s ²S–1s²2p ²P and 1s²2p ²P–1s²3d ²D transition energies for ⁷Li and ⁶Li, as well as the isotope shifts, are calculated and compared with experiment. The results yield an improved ionization potential for lithium of 43 487.167(4) cm^-1. Expectation values of powers of r_i and r_ij and the delta functions δ(r_i) and δ(r_ij) are evaluated.