Tadpoles and vacuum bubbles in light-front quantization
Abstract
We develop a method by which vacuum transitions may be included in light-front calculations. This allows tadpole contributions which are important for symmetry-breaking effects and yet are missing from standard light-front calculations. These transitions also dictate a nontrivial vacuum and contributions from vacuum bubbles to physical states. In nonperturbative calculations these separate classes of contributions (tadpoles and bubbles) cannot be filtered; instead, we regulate the bubbles and subtract the vacuum energy from the eigenenergy of physical states. The key is replacement of momentum-conserving delta functions with model functions of finite width; the width becomes the regulator and is removed after subtractions. The approach is illustrated in free scalar theory, quenched scalar Yukawa theory, and in a limited Fock-space truncation of theory.
Cite
@article{arxiv.2201.00123,
title = {Tadpoles and vacuum bubbles in light-front quantization},
author = {Sophia S. Chabysheva and John R. Hiller},
journal= {arXiv preprint arXiv:2201.00123},
year = {2022}
}
Comments
19 pages, 2 figures, RevTeX 4-2