The Shannon entropy for the position-dependent Schrödinger equation for a particle with a nonuniform solitonic mass density is evaluated in the case of a trivial null potential. The position S x and momentum S p information entropies for the three lowest-lying states are calculated. In particular, for these states, we are able to derive analytical solutions for the S x entropy as well as for the Fourier transformed wave functions, while the S p quantity is calculated numerically. We notice the behavior of the S x entropy, namely, it decreases as the mass barrier width narrows and becomes negative beyond a particular width. The negative Shannon entropy exists for the probability densities that are highly localized. The mass barrier determine...
Shannon's information entropies in position- and momentum- space and their sum $S$ are calculated fo...
An uncertainty-type lower bound [I. Bialynicki-Birula and J. Mycielski, Commun. Math. Phys. 44, 129 ...
In this note, we examine the behaviour of Shannon’s entropy density for some examples in quantum mec...
This study presents the Shannon and Renyi information entropy for both position and momentum space ...
The asymptotics of the Boltzmann-Shannon information entropy as well as the Renyi entropy for the qu...
Quantum information entropies for the one dimensional Morse potential are discussed in position and ...
The position and momentum space information entropies for the Morse potential are numerically obtain...
In this work, we study the quantum information entropies for two different types of hyperbolic singl...
Quantum mechanical spatial probability densities may be obtained by solving the time independent Sch...
In general, wavefunction W(x) solutions of bound state quantum problems are obtained by solving a ti...
There has been interest (1) (2) in calculating high energy single particle wavefunction entropies us...
Solitary waves propagation of baryonic density perturbations, ruled by the Korteweg–de Vries equatio...
Recently, maximum entropy calculations have become associated with solutions of the single particle ...
Classical statistical mechanical density maximizes entropy subject to constraints i.e. one has the M...
In the Maximum Entropy (uncertainty) method, the Gibbs-Shannon entropy (or information) IGS = − p(x)...
Shannon's information entropies in position- and momentum- space and their sum $S$ are calculated fo...
An uncertainty-type lower bound [I. Bialynicki-Birula and J. Mycielski, Commun. Math. Phys. 44, 129 ...
In this note, we examine the behaviour of Shannon’s entropy density for some examples in quantum mec...
This study presents the Shannon and Renyi information entropy for both position and momentum space ...
The asymptotics of the Boltzmann-Shannon information entropy as well as the Renyi entropy for the qu...
Quantum information entropies for the one dimensional Morse potential are discussed in position and ...
The position and momentum space information entropies for the Morse potential are numerically obtain...
In this work, we study the quantum information entropies for two different types of hyperbolic singl...
Quantum mechanical spatial probability densities may be obtained by solving the time independent Sch...
In general, wavefunction W(x) solutions of bound state quantum problems are obtained by solving a ti...
There has been interest (1) (2) in calculating high energy single particle wavefunction entropies us...
Solitary waves propagation of baryonic density perturbations, ruled by the Korteweg–de Vries equatio...
Recently, maximum entropy calculations have become associated with solutions of the single particle ...
Classical statistical mechanical density maximizes entropy subject to constraints i.e. one has the M...
In the Maximum Entropy (uncertainty) method, the Gibbs-Shannon entropy (or information) IGS = − p(x)...
Shannon's information entropies in position- and momentum- space and their sum $S$ are calculated fo...
An uncertainty-type lower bound [I. Bialynicki-Birula and J. Mycielski, Commun. Math. Phys. 44, 129 ...
In this note, we examine the behaviour of Shannon’s entropy density for some examples in quantum mec...