Affiliation:
1. Instituto Carlos I de Física Teórica y Computacional, Universidad de Granada, 18071 Granada, Spain
2. Departamento de Física Atómica, Molecular y Nuclear, Universidad de Granada, 18071 Granada, Spain
Abstract
Statistical measures of complexity hold significant potential for applications in D-dimensional finite fermion systems, spanning from the quantification of the internal disorder of atoms and molecules to the information–theoretical analysis of chemical reactions. This potential will be shown in hydrogenic systems by means of the monotone complexity measures of Cramér–Rao, Fisher–Shannon and LMC(Lopez-Ruiz, Mancini, Calbet)–Rényi types. These quantities are shown to be analytically determined from first principles, i.e., explicitly in terms of the space dimensionality D, the nuclear charge and the hyperquantum numbers, which characterize the system’ states. Then, they are applied to several relevant classes of particular states with emphasis on the quasi-spherical and the highly excited Rydberg states, obtaining compact and physically transparent expressions. This is possible because of the use of powerful techniques of approximation theory and orthogonal polynomials, asymptotics and generalized hypergeometric functions.
Funder
Agencia Estatal de Investigación (Spain) and the European Regional Development Fund
Agencia Andaluza del Conocimiento of the Junta de Andalucía
Subject
Physics and Astronomy (miscellaneous),Astronomy and Astrophysics,Atomic and Molecular Physics, and Optics,Statistical and Nonlinear Physics
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