English

Heat Kernels and Resummations: the Spinor Case

High Energy Physics - Theory 2025-11-06 v1 Mathematical Physics math.MP

Abstract

Among the available perturbative approaches in quantum field theory, heat kernel techniques provide a powerful and geometrically transparent framework for computing effective actions in nontrivial backgrounds. In this work, resummation patterns within the heat kernel expansion are examined as a means of systematically extracting nonperturbative information. Building upon previous results for Yukawa interactions and scalar quantum electrodynamics, we extend the analysis to spinor fields, demonstrating that a recently conjectured resummation structure continues to hold. The resulting formulation yields a compact expression that resums invariants constructed from the electromagnetic tensor and its spinorial couplings, while preserving agreement with known proper-time coefficients. Beyond its immediate computational utility, the framework offers a unified perspective on the emergence of nonperturbative effects (such as Schwinger pair creation) in relation to perturbative heat kernel data, and provides a basis for future extensions to curved spacetimes and non-Abelian gauge theories.

Keywords

Cite

@article{arxiv.2511.03315,
  title  = {Heat Kernels and Resummations: the Spinor Case},
  author = {S. A. Franchino-Viñas and C. García-Pérez and F. D. Mazzitelli and S. Pla and V. Vitagliano},
  journal= {arXiv preprint arXiv:2511.03315},
  year   = {2025}
}

Comments

9 pages

R2 v1 2026-07-01T07:22:36.328Z