Threshold Expansion and Dimensionally Regularised NRQCD
Abstract
A Lagrangean and a set of Feynman rules are presented for non-relativistic QFT's with manifest power counting in the heavy particle velocity . A r\'egime is identified in which energies and momenta are of order . It is neither identical to the ultrasoft r\'egime corresponding to radiative processes with energies and momenta of order , nor to the potential r\'egime with on shell heavy particles and Coulomb binding. In this soft r\'egime, massless particles are on shell, and heavy particle propagators become static. Examples show that it contributes to one- and two-loop corrections of scattering and production amplitudes near threshold. Hence, NRQFT agrees with the results of threshold expansion. A simple example also demonstrates the power of dimensional regularisation in NRQFT.
Cite
@article{arxiv.hep-ph/9712467,
title = {Threshold Expansion and Dimensionally Regularised NRQCD},
author = {H. W. Griesshammer},
journal= {arXiv preprint arXiv:hep-ph/9712467},
year = {2016}
}
Comments
16 pages LaTeX2e, uses feynmf to generate 15 in-text graphs and 3 figures. Minor corrections: Misprints corrected, calculation of examples clarified, appendix on split dim. reg. added, references updated. Version to appear in Phys. Rev. D