In this work, the interaction of an algebraic system of su(1,1) with qubit is investigated. Through Heisenberg’s equations of motion, the constants of motion are calculated. By solving the Schro ̈ding equation, the wave function that defines the features of the proposed system is obtained. Some statistical quantities are studied to determine the properties of the interaction of the algebraic system su(1,1) with qubit. The mathematical formula for the atomic emission spectrum is calculated and its properties are studied for many parameter values. Moreover, the periods of squeezing are defined by the entropy squeezing. The results are also compared and statistical quantities are linked together.
Digital Object Identifier (DOI)
S. Alqannas, Haifa
"Physical and Dynamical Properties of the Atomic Spectrum and Squeezing of Information Entropy of Su(1,1) Interacting with Single Qubit,"
Applied Mathematics & Information Sciences: Vol. 15:
2, Article 13.
Available at: https://digitalcommons.aaru.edu.jo/amis/vol15/iss2/13