Lie Algebraic approach to molecular spectroscopy: Diatomic to polyatomic molecules

Abstract

Interacting dipole (p) bosons along with scalar (s) bosons, based on the ideas drawn from the interacting boson model of atomic nuclei, led to the development of the vibron model based on U(4) spectrum generating algebra for diatomic molecules. The U(4) ⊃ SO(4) ⊃ SO(3) algebra generates rotation-vibration spectra. Extending this to two coupled SO(4) algebras and three SO(4) algebras describe triatomic and four-atomic molecules respectively. Similarly, appropriately coupled U(2) ⊃ SO(2) algebras will describe the stretching vibrations, with proper point group symmetries, in polyatomic molecules. In addition, coupled U(3) algebras describe coupled benders. The Lie algebraic approach to molecular spectroscopy is briefly described along with a list giving future directions and presented in three appendices results for: (i) U(3) algebra for bending vibrations and coupled benders; (ii) symmetry mixing Hamiltonians generating regular spectra; (iii) partition functions for diatomic and triatomic molecules.