Analytical evaluation of the Uehling potential using binomial expansion theorems

Authors

  • E. Çopuroğlu
  • T. Mehmetoğlu

DOI:

https://doi.org/10.31489/2019ph3/17-21

Keywords:

Uehling potential, vacuum polarization, quantum electrodynamics, Bickley-Naylor functions, Exponential integral function

Abstract

In this paper, we have introduced a new method to study of Uehling potential using binomial expansion theorems. Note that, the Uehling potential is a powerful tool to determine the effect of vacuum polarization in atomic and muon-atomic systems. The correcting of vacuum-polarization for an electron in a nuclear Coulomb field can be defined more precisely by the use of Uehling potential. From this point of view, the determination of explicit and closed-form analytical expressions for Uehling potential is very important. Therefore, presented method is illustrated by analytically calculation of the Uehling potential with the simple binomial coefficients and exponential integral functions. As can be seen from table and figure, the newly derived analytical expression well avoids the computational difficulties. An evaluation analysis of the Uehling potential is reported for arbitrary values of parameters. Because of its simple form the suggested method can be generally applied to the quantum thermodynamical problems.

Additional Files

Published

2019-09-30

Issue

Section

PHYSICS OF THE CONDENSED MATTER

Received

2023-11-20