Flat space Fermionic Wave-function coefficients
High Energy Physics - Theory
2025-12-30 v2
Abstract
In this work we analyze the analytic structure of tree-level flat-space wavefunction coefficients (WFCs), with particular attention to fermionic operators, and derive cutting rules for internal-fermion lines. Building on these results, we set up an iterative procedure that, starting from the flat-space S-matrix, reconstructs the 3- and 4-point WFCs with the correct partial- and total-energy poles and satisfying the requisite cutting rules. Consequently, the "four-particle test" for flat-space WFCs imposes no additional constraints beyond the consistency of the flat-space S-matrix.
Cite
@article{arxiv.2512.22092,
title = {Flat space Fermionic Wave-function coefficients},
author = {Bo-Ting Chen and Wei-Ming Chen and Yu-tin Huang and Zi-Xun Huang and Yohan Liu},
journal= {arXiv preprint arXiv:2512.22092},
year = {2025}
}
Comments
32 pages; V2: multiple typos corrected