English

Connection formulas between Coulomb wave functions

Mathematical Physics 2018-11-21 v3 math.MP Nuclear Theory

Abstract

The mathematical relations between the regular Coulomb function Fη(ρ)F_{\eta\ell}(\rho) and the irregular Coulomb functions Hη±(ρ)H^\pm_{\eta\ell}(\rho) and Gη(ρ)G_{\eta\ell}(\rho) are obtained in the complex plane of the variables η\eta and ρ\rho for integer or half-integer values of \ell. These relations, referred to as "connection formulas", form the basis of the theory of Coulomb wave functions, and play an important role in many fields of physics, especially in the quantum theory of charged particle scattering. As a first step, the symmetry properties of the regular function Fη(ρ)F_{\eta\ell}(\rho) are studied, in particular under the transformation 1\ell\mapsto-\ell-1, by means of the modified Coulomb function Φη(ρ)\Phi_{\eta\ell}(\rho), which is entire in the dimensionless energy η2\eta^{-2} and the angular momentum \ell. Then, it is shown that, for integer or half-integer \ell, the irregular functions Hη±(ρ)H^\pm_{\eta\ell}(\rho) and Gη(ρ)G_{\eta\ell}(\rho) can be expressed in terms of the derivatives of Φη,(ρ)\Phi_{\eta,\ell}(\rho) and Φη,1(ρ)\Phi_{\eta,-\ell-1}(\rho) with respect to \ell. As a consequence, the connection formulas directly lead to the description of the singular structures of Hη±(ρ)H^\pm_{\eta\ell}(\rho) and Gη(ρ)G_{\eta\ell}(\rho) at complex energies in their whole Riemann surface. The analysis of the functions is supplemented by novel graphical representations in the complex plane of η1\eta^{-1}.

Cite

@article{arxiv.1804.10976,
  title  = {Connection formulas between Coulomb wave functions},
  author = {David Gaspard},
  journal= {arXiv preprint arXiv:1804.10976},
  year   = {2018}
}

Comments

24 pages, 4 figures, 39 references

R2 v1 2026-06-23T01:39:25.820Z