Author:
Amila I,Idrissi M Janati,Fedoul A,Sayouri S
Abstract
Abstract
This work presents the systematic calculation of vibrational energy levels, for diatomic molecules through an alternative approach, reposed on the Floquet representation analysis. The Morse potential function has been employed to solve the Schrodinger equation, and to obtain the vibrational energy levels of diatomic systems. As an illustration, the numerical energy values of some molecules have been computed, and compared to those of literature, revealing a good agreement, and showing the accuracy of our approach.
Reference10 articles.
1. Equivalence of the empirical shifted Deng-Fan oscillator potential for diatomic molecules;Hamzavi;Journal of Mathematical Chemistry,2013
2. Accurate ro-vibrational spectroscopy of diatomic molecules in a Morse oscillator potential;Amlan;Results in Physics
3. Squeezing in Floquet States and Quasi-energies of Harmonic Oscillator Driven by a Strong Periodic Field;Janati-Idrissi;Afr. J. Math. Phys.,2011
4. Diatomic molecules according to the wave mechanics;Morse;II. Vibrational levels, Phys. Rev.,1929