Volume 65, 1969

Quantum mechanical treatment of molecules. Part 5.—Calculations of the potential energy curve and molecular constants of LiH (X1+)

Abstract

The self-consistent field molecular orbital (S.C.F. M.O.) method in the linear combination of atomic orbitals (L.C.A.O.) approximation is applied to the ground state of LiH (X1+) at a number of internuclear distances R for the calculation of the potential energy (P.E.) curve and molecular constants. In this calculation both the L.C.A.O. coefficients and the screening constants of 1s, 2s, 2pz, 3s, 3pz A.O. of Li and 1s, 2s, 2pz A.O. of H are optimized. Another calculation with an extended basis set, involving the optimized exponents of the above A.O. and some estimated exponents for the higher A.O., was carried out and subjected to a configuration interaction treatment at a number of R to obtain a P.E. curve. The P.E. curves, computed with and without configuration interaction treatment, have been used in the solution of the radial Schrödinger equation to compute the molecular constants ωe, ωexe, Be, αe, Re and De. The computed results are compared with those calculated with a limited set of optimized basis functions and those reported by others2 and the experimental data.2

Article information

Article type
Paper

Trans. Faraday Soc., 1969,65, 3121-3128

Quantum mechanical treatment of molecules. Part 5.—Calculations of the potential energy curve and molecular constants of LiH (X1+)

R. C. Sahni, B. C. Sawhney and M. J. Hanley, Trans. Faraday Soc., 1969, 65, 3121 DOI: 10.1039/TF9696503121

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