Algebraic approach to thermodynamic properties of diatomic molecules
Version 2 2024-06-04, 10:12Version 2 2024-06-04, 10:12
Version 1 2017-04-10, 13:55Version 1 2017-04-10, 13:55
journal contribution
posted on 2024-06-04, 10:12authored byM Angelova, A Frank
A simple model extending Lie algebraic techniques is applied to the analysis of thermodynamic vibrational properties of diatomic molecules. Local anharmonic effects are described by means of a Morse-like potential and the corresponding anharmonic bosons are associated with the SU(2) algebra. The total number of anharmonic bosons, fixed by the potential shape, is determined for a large number of diatomic molecules. A vibrational high-temperature partition function and the related thermodynamic functions are derived and studied in terms of the parameters of the model. The idea of a critical temperature is introduced in relation to the specific heat. A physical interpretation in terms of a quantum deformation associated with the model is given