Information entropy and complexity measure in generalized Kratzer potential

Abstract

Shannon entropy (S), Fisher information (I) and a measure equivalent to Fisher-Shannon complexity (CIS) of a ro-vibrational state of diatomic molecules (O2, O2+, NO, NO+) with generalized Kratzer potential is analyzed. Exact analytical expression of I is derived for the arbitrary state, whereas the same could be done for I with \n,,m=0\ state. It is found that shifting from neutral to the cationic system, I increases while S decreases, consistent with the interpretation of a localization in the probability distribution. Additionally, this study reveals that CIS increases with the number of nodes in a system.