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Hauptverfasser: Nascimento, J. R., Olmo, Gonzalo J., Petrov, A. Yu., Porfírio, P. J., da Silva, Ramires N.
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2505.07483
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author Nascimento, J. R.
Olmo, Gonzalo J.
Petrov, A. Yu.
Porfírio, P. J.
da Silva, Ramires N.
author_facet Nascimento, J. R.
Olmo, Gonzalo J.
Petrov, A. Yu.
Porfírio, P. J.
da Silva, Ramires N.
contents We propose a novel nonlocal spin-1/2 theory in which the form factor depends on the Dirac operator rather than on the d'Alembert operator. In this scenario, we explore some classical and quantum aspects of this new theory. At the classical level, we investigate the dispersion relation of free spin-1/2 particles and find that it increasingly deviates from the standard case as the nonlocal effects become relevant. At the quantum level, we compute the fermionic one-loop effective action for the nonlocal spin-1/2 theory with Yukawa coupling and show that the contributions of nonlocal effects are significant in the UV limit, while in the IR they are suppressed by a UV cutoff scale, which has been chosen to coincide with the nonlocality scale $Λ$. We minimally couple a $U(1)$ gauge field to the nonlocal spin-1/2 field theory and explicitly demonstrate that this theory is gauge invariant. Finally, we obtain a nonlocal version of the Pauli equation and the impact of the nonlocality in the $g$-factor of massive particles.
format Preprint
id arxiv_https___arxiv_org_abs_2505_07483
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A novel nonlocal spin-1/2 theory: classical and quantum aspects
Nascimento, J. R.
Olmo, Gonzalo J.
Petrov, A. Yu.
Porfírio, P. J.
da Silva, Ramires N.
High Energy Physics - Theory
We propose a novel nonlocal spin-1/2 theory in which the form factor depends on the Dirac operator rather than on the d'Alembert operator. In this scenario, we explore some classical and quantum aspects of this new theory. At the classical level, we investigate the dispersion relation of free spin-1/2 particles and find that it increasingly deviates from the standard case as the nonlocal effects become relevant. At the quantum level, we compute the fermionic one-loop effective action for the nonlocal spin-1/2 theory with Yukawa coupling and show that the contributions of nonlocal effects are significant in the UV limit, while in the IR they are suppressed by a UV cutoff scale, which has been chosen to coincide with the nonlocality scale $Λ$. We minimally couple a $U(1)$ gauge field to the nonlocal spin-1/2 field theory and explicitly demonstrate that this theory is gauge invariant. Finally, we obtain a nonlocal version of the Pauli equation and the impact of the nonlocality in the $g$-factor of massive particles.
title A novel nonlocal spin-1/2 theory: classical and quantum aspects
topic High Energy Physics - Theory
url https://arxiv.org/abs/2505.07483