Rotational energy level structure in the local mode limit

Abstract

The nature of the rotational energy level structure of the stretching vibrational states in XY₂, XY₃, and XY₄ molecules (belonging to the C_2v, C_3v, and T_d point groups, respectively) has been investigated in a local mode limit with no kinetic or potential energy copling between the bond oscillators and with the fundamental stretching frequencies much larger than the bending frequencies. The Coriolis effects between the rotational levels in the stretching vibrational states disappear in this limiting case, but the H₂₂ resonance terms are seen to be important owing to the multiple vibrational degeneracies. Simple relationships are obtained between the coefficients of the vibrationally diagonal and off‐diagonal H₂₂ terms and consequently the number of independent molecular parameters is reduced. The model is compared with experimental data for XH_n hydrides, and particularly in the molecules with a heavy central mass the major contribution to the H₂₂ coefficients is well explained.