This study presents the Shannon and Renyi information entropy for both position and momentum space and the Fisher information for the position-dependent mass Schr¨odinger equation with the Frost-Musulin potential. The analysis of the quantum mechanical probability has been obtained via the Fisher information. The variance information of this potential is equally computed. This controls both the chemical properties and physical properties of some of the molecular systems. We have observed the behaviour of the Shannon entropy. Renyi entropy, Fisher information and variance with the quantum number n respectively
The resultant measures of the entropy/information content in complex elec- tronic states are discus...
It is well known that a Shannon-based definition of information entropy leads in the classical case ...
After Shannon, entropy becomes a fundamental quantity to describe not only uncertainity or chaos of ...
The Shannon entropy for the position-dependent Schrödinger equation for a particle with a nonuniform...
AbstractFisher's information and Shannon's entropy are two complementary information measures of a p...
We start with a clear distinction between Shannon’s Measure of Information (SMI) and the Thermodynam...
Information entropies (Fisher, Shannon, and R´enyi), with their associated quantities, are calculate...
We study the correlation of the ground state of an N-particle Moshinsky model by computing the Shann...
A set of Fisher information properties are presented in order to draw a parallel with similar proper...
In this note, we consider the time-independent Schrodinger equation written in terms of Fisher infor...
Recently, there has been some interest in the literature in calculating temperature dependent quantu...
We solved the Schr¨ odinger equation with a certain approximation to the centrifugal term for an ar...
A probability distribution encodes all the statistics of its corresponding random variable, hence it...
Shannon entropy and Fisher information functionals are known to quantify certain information-theoret...
In their seminal work thirty years ago, Ghosh, Berkowitz, and Parr reformulated the ground-state den...
The resultant measures of the entropy/information content in complex elec- tronic states are discus...
It is well known that a Shannon-based definition of information entropy leads in the classical case ...
After Shannon, entropy becomes a fundamental quantity to describe not only uncertainity or chaos of ...
The Shannon entropy for the position-dependent Schrödinger equation for a particle with a nonuniform...
AbstractFisher's information and Shannon's entropy are two complementary information measures of a p...
We start with a clear distinction between Shannon’s Measure of Information (SMI) and the Thermodynam...
Information entropies (Fisher, Shannon, and R´enyi), with their associated quantities, are calculate...
We study the correlation of the ground state of an N-particle Moshinsky model by computing the Shann...
A set of Fisher information properties are presented in order to draw a parallel with similar proper...
In this note, we consider the time-independent Schrodinger equation written in terms of Fisher infor...
Recently, there has been some interest in the literature in calculating temperature dependent quantu...
We solved the Schr¨ odinger equation with a certain approximation to the centrifugal term for an ar...
A probability distribution encodes all the statistics of its corresponding random variable, hence it...
Shannon entropy and Fisher information functionals are known to quantify certain information-theoret...
In their seminal work thirty years ago, Ghosh, Berkowitz, and Parr reformulated the ground-state den...
The resultant measures of the entropy/information content in complex elec- tronic states are discus...
It is well known that a Shannon-based definition of information entropy leads in the classical case ...
After Shannon, entropy becomes a fundamental quantity to describe not only uncertainity or chaos of ...