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Bibliographic Details
Main Author: Bagci, Ali
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2403.17029
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author Bagci, Ali
author_facet Bagci, Ali
contents Dirac-Coulomb type differential equation and its solution relativistic exponential-type spinor orbitals are introduced. They provide a revised form for operator invariants, namely Dirac invariants, simplifying the treatment of the angular components in calculation of many-electron systems. The relativistic Coulomb energy is determined by employing a spectral solution to Poisson's equation for the one-electron potential, which is expressed in terms of radial functions involving incomplete gamma functions. The computation for incomplete gamma functions posses challenges due to slow convergence rate associated with their series representation. Such difficulties are eliminated through use of the bi-directional method along with hyper-radial functions. A new formulation for relativistic auxiliary functions that improve the efficiency in Coulomb energy calculations is presented. These formulations also contribute to inquiring into orthogonal expansions for solutions to Poisson's equation using complete orthonormal sets of exponential orbitals with non-integer principal quantum numbers. They may provide a meaningful alternative series representations.
format Preprint
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institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Relativistic exponential-type spinor orbitals and their use in many-electron Dirac equation solution
Bagci, Ali
Quantum Physics
Dirac-Coulomb type differential equation and its solution relativistic exponential-type spinor orbitals are introduced. They provide a revised form for operator invariants, namely Dirac invariants, simplifying the treatment of the angular components in calculation of many-electron systems. The relativistic Coulomb energy is determined by employing a spectral solution to Poisson's equation for the one-electron potential, which is expressed in terms of radial functions involving incomplete gamma functions. The computation for incomplete gamma functions posses challenges due to slow convergence rate associated with their series representation. Such difficulties are eliminated through use of the bi-directional method along with hyper-radial functions. A new formulation for relativistic auxiliary functions that improve the efficiency in Coulomb energy calculations is presented. These formulations also contribute to inquiring into orthogonal expansions for solutions to Poisson's equation using complete orthonormal sets of exponential orbitals with non-integer principal quantum numbers. They may provide a meaningful alternative series representations.
title Relativistic exponential-type spinor orbitals and their use in many-electron Dirac equation solution
topic Quantum Physics
url https://arxiv.org/abs/2403.17029