Numerical calculation of the ground-state potential energy function of KrH+ from spectroscopic data

The previously suggested generalized potential energy function (GPEF) is used for calculation of the X 'E+ state potential curve of SiF+ from the molecular constants. The procedure of the calculations is based on the optimization of nonlinear parameters p and n of GPEF. The obtained GPEF for SiF+ yi

The numeri~l procedure or McCullough is used in calculaGtns or Harrrtzz-Fock nnd hlC SCF waveruntxions for ground spate of N2\_ The la~cr are derived using the complete set of 1s spin and symmc~ry adapted configurnlions in the space or MOs lhnt arise from 7p ntomic orbilals. An incrust in disuxialio

By means of a purely quantum mechanical method, we construct an accurate potential energy function for the \(X^{\prime} \Sigma^{+}\)ground electronic state of \(\mathrm{CO}\) from a large set of experimental frequency data for vibration-rotational bands of several isotopic species. We use an analyti

The effective ground state potential energy function of the ozone molecule near the C 2v equilibrium configuration was obtained in a least-squares fit to the largest sample of experimental, high-resolution vibration-rotation data used for this purpose so far. The fitting is based on variational calc