Reduced Dirac Equation and Lamb Shift as an Off-mass-shell effect in Quantum Electrodynamics
Abstract
Based on the precision experimental data of energy-level differences in hydrogenlike atoms, especially the 1S-2S transition of hydrogen and deuterium, the necessity of establishing a reduced Dirac equation (RDE) with reduced mass as the substitution of original electron mass is stressed. The theoretical basis of RDE lies on two symmetries, the invariance under the space-time inversion and that under the pure space inversion. Based on RDE and within the framework of quantum electrodynamics in covariant form, the Lamb shift can be evaluated (at one-loop level) as the radiative correction on a bound electron staying in an off-mass-shell state--a new approach eliminating the infrared divergence. Hence the whole calculation, though with limited accuracy, is simplified, getting rid of all divergences and free of ambiguity.
Cite
@article{arxiv.quant-ph/0511197,
title = {Reduced Dirac Equation and Lamb Shift as an Off-mass-shell effect in Quantum Electrodynamics},
author = {Guang-jiong Ni and Jianjun Xu and Senyue Lou},
journal= {arXiv preprint arXiv:quant-ph/0511197},
year = {2010}
}
Comments
48 pages,3 figures