HEWES: Heisenberg-Euler Weak-Field Expansion Simulator
Abstract
Vacuum polarization, a key prediction of quantum theory, can cause a variety of intriguing phenomena that can be triggered by high-intensity laser pulses. The Heisenberg-Euler theory of the quantum vacuum supplements Maxwell's theory of electromagnetism with nonlinear photon-photon interactions mediated by vacuum fluctuations. This work presents a numerical solver for the leading weak-field Heisenberg-Euler corrections. The present code implementation reaches an accuracy of order thirteen in the numerical scheme and takes into account up to six-photon interactions. Since theoretical approaches are limited to approximations and the experimental requirements for signal detection are high, the need for support from the numerical side is apparent.
Cite
@article{arxiv.2202.09680,
title = {HEWES: Heisenberg-Euler Weak-Field Expansion Simulator},
author = {Andreas Lindner and Baris Ölmez and Hartmut Ruhl},
journal= {arXiv preprint arXiv:2202.09680},
year = {2023}
}
Comments
7 pages, 6 figures; journal version