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Main Authors: Junior, Carlos A. P. C., Nascimento, Leandro O., Alves, Van Sérgio
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.19135
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author Junior, Carlos A. P. C.
Nascimento, Leandro O.
Alves, Van Sérgio
author_facet Junior, Carlos A. P. C.
Nascimento, Leandro O.
Alves, Van Sérgio
contents We investigate generalized quantum electrodynamics (GQED), a higher-derivative extension of QED in (3+1)D. We perform its dimensional reduction to (2+1)D by confining the Dirac current to a plane while allowing the gauge field to propagate out of the plane. The resulting model, which we call Pseudo Generalized QED (PGQED), is minimally coupled to massless Dirac fermions. In the strong-coupling regime, we show that a dynamical mass is generated through approximate solutions of the Schwinger-Dyson equations, leading to chiral symmetry breaking and modifications of the fermion dispersion relation. We derive an analytic critical coupling $α_{c}(μ)$ and flavors critical number $N_{c}(μ)$, dependent on the Podolsky parameter $μ$ and the ultraviolet cutoff $Λ$. These analytical results are found to be consistent with the numerical analysis. Finally, we connect our results to graphene, estimating a range for $μ$ in the ultrarelativistic limit and highlighting implications for two-dimensional materials.
format Preprint
id arxiv_https___arxiv_org_abs_2510_19135
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Podolsky quantum electrodynamics for strongly coupled Dirac fermions in (2+1)D
Junior, Carlos A. P. C.
Nascimento, Leandro O.
Alves, Van Sérgio
High Energy Physics - Theory
We investigate generalized quantum electrodynamics (GQED), a higher-derivative extension of QED in (3+1)D. We perform its dimensional reduction to (2+1)D by confining the Dirac current to a plane while allowing the gauge field to propagate out of the plane. The resulting model, which we call Pseudo Generalized QED (PGQED), is minimally coupled to massless Dirac fermions. In the strong-coupling regime, we show that a dynamical mass is generated through approximate solutions of the Schwinger-Dyson equations, leading to chiral symmetry breaking and modifications of the fermion dispersion relation. We derive an analytic critical coupling $α_{c}(μ)$ and flavors critical number $N_{c}(μ)$, dependent on the Podolsky parameter $μ$ and the ultraviolet cutoff $Λ$. These analytical results are found to be consistent with the numerical analysis. Finally, we connect our results to graphene, estimating a range for $μ$ in the ultrarelativistic limit and highlighting implications for two-dimensional materials.
title Podolsky quantum electrodynamics for strongly coupled Dirac fermions in (2+1)D
topic High Energy Physics - Theory
url https://arxiv.org/abs/2510.19135