English

Helium- and Lithium-like ionic sequences: Critical charges

Mathematical Physics 2015-05-28 v2 math.MP Atomic Physics Quantum Physics

Abstract

In non-relativistic quantum mechanics we study the Coulomb systems of infinitely massive center of charge Z and two-three electrons: (Z,e,e)(Z,e,e) and (Z,e,e,e)(Z,e,e,e). It is shown that in both cases the total energy curve in ZZ is smooth, without any visible irregularities. Thus, for both systems the physical integer charges Z=1,2,...Z=1,2,... do not play a distinguished role as would be associated with charge quantization. By definition, a critical charge ZcrZ_{cr} is a charge which separates a domain of the existence of bound states from a domain of unbound ones (continuum). For both systems the critical charges are found, Zcr,2e=0.91085Z_{cr,2e}=0.91085 and Zcr,3e=2.009Z_{cr,3e}=2.009, respectively. Based on numerical analysis, the Puiseux expansion in fractional powers of (ZZcr)(Z-Z_{cr}) is constructed for both systems. Our results indicate the existence of a square-root branch point singularity at ZcrZ_{cr} with exponent 3/2. A connection between the critical charge and the radius of convergence of 1/Z-expansion is briefly discussed.

Keywords

Cite

@article{arxiv.1104.4764,
  title  = {Helium- and Lithium-like ionic sequences: Critical charges},
  author = {N. L. Guevara and A. V. Turbiner},
  journal= {arXiv preprint arXiv:1104.4764},
  year   = {2015}
}

Comments

10 pages, LaTeX, typos corrected, Fig.1 added, a Note Added with calculated critical charge for $2^1S$ state for $(Z,e,e)$ system, $Z_{cr,2e}^{(2^1S)}\ =\ 1.02$

R2 v1 2026-06-21T17:58:29.713Z