Litcius/Paper detail

The confined helium atom: An information–theoretic approach

C. R. Estañón, H. E. Montgomery, J. C. Angulo, N. Aquino

2024International Journal of Quantum Chemistry27 citationsDOIOpen Access PDF

Abstract

Abstract In this article, we study the helium atom confined in a spherical impenetrable cavity by using informational measures. We use the Ritz variational method to obtain the energies and wave functions of the confined helium atom as a function of the cavity radius . As trial wave functions we use one uncorrelated function and five explicitly correlated basis sets in Hylleraas coordinates with different degrees of electronic correlation. We computed the Shannon entropy, Fisher information, Kullback–Leibler entropy, Tsallis entropy, disequilibrium and Fisher–Shannon complexity, as a function of . We found that these entropic measures are sensitive to electronic correlation and can be used to measure it. As expected these entropic measures are less sensitive to electron correlation in the strong confinement regime ( a.u.).

Topics & Concepts

Wave functionHelium atomStatistical physicsElectronic correlationQuantum mechanicsPhysicsEntropy (arrow of time)Measure (data warehouse)EigenfunctionAtom (system on chip)MathematicsHeliumElectronEigenvalues and eigenvectorsDatabaseComputer scienceEmbedded systemQuantum Mechanics and Non-Hermitian PhysicsSpectroscopy and Quantum Chemical StudiesStatistical Mechanics and Entropy