Application of information entropy to nuclei
Abstract
Shannon's information entropies in position- and momentum- space and their sum S are calculated for various s-p and s-d shell nuclei using a correlated one-body density matrix depending on the harmonic oscillator size b0 and the short range correlation parameter y which originates from a Jastrow correlation function. It is found that the information entropy sum for a nucleus depends only on the correlation parameter y through the simple relation S= s0A + s1A y-λsA, where s0A, s1A and λsA depend on the mass number A. A similar approximate expression is also valid for the root mean square radius of the nucleus as function of y leading to an approximate expression which connects S with the root mean square radius. Finally, we propose a method to determine the correlation parameter from the above property of S as well as the linear dependence of S on the logarithm of the number of nucleons.
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