THE AXIAL CURRENT AND ITS DIVERGENCE

Ignacio Castelli; Adam Freese; Cédric Lorcé; Andreas Metz; Barbara Pasquini; Simone Rodini

doi:10.5506/APhysPolBSupp.18.1-A21

THE AXIAL CURRENT AND ITS DIVERGENCE

Ignacio Castelli
, Adam Freese
, Cédric Lorcé
, Andreas Metz
, Barbara Pasquini
, Simone Rodini

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

In the Standard Model, the axial current is not conserved due to fermion masses and the axial anomaly. In this work, we employ perturbative quantum chromodynamics to evaluate the matrix elements of the local and non-local axial currents for a gluon target, providing insights into their relation with the axial anomaly. Our analysis revisits well-established results related to the nucleon spin sum rule, along with recent developments in off-forward kinematics. A significant aspect of our approach is the use of an infrared regulator, with a particular focus on the non-zero quark mass. We observe important cancellations between the contributions from the axial anomaly and the quark mass term, and we discuss how these cancellations are linked to the conservation of angular momentum.

langue originale	Anglais
Numéro d'article	1-A21
journal	Acta Physica Polonica B, Proceedings Supplement
Volume	18
Numéro de publication	1
Les DOIs	https://doi.org/10.5506/APhysPolBSupp.18.1-A21
état	Publié - 1 janv. 2025

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abstract = "In the Standard Model, the axial current is not conserved due to fermion masses and the axial anomaly. In this work, we employ perturbative quantum chromodynamics to evaluate the matrix elements of the local and non-local axial currents for a gluon target, providing insights into their relation with the axial anomaly. Our analysis revisits well-established results related to the nucleon spin sum rule, along with recent developments in off-forward kinematics. A significant aspect of our approach is the use of an infrared regulator, with a particular focus on the non-zero quark mass. We observe important cancellations between the contributions from the axial anomaly and the quark mass term, and we discuss how these cancellations are linked to the conservation of angular momentum.",

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AU - Freese, Adam

AU - Lorcé, Cédric

AU - Metz, Andreas

AU - Pasquini, Barbara

AU - Rodini, Simone

PY - 2025/1/1

Y1 - 2025/1/1

N2 - In the Standard Model, the axial current is not conserved due to fermion masses and the axial anomaly. In this work, we employ perturbative quantum chromodynamics to evaluate the matrix elements of the local and non-local axial currents for a gluon target, providing insights into their relation with the axial anomaly. Our analysis revisits well-established results related to the nucleon spin sum rule, along with recent developments in off-forward kinematics. A significant aspect of our approach is the use of an infrared regulator, with a particular focus on the non-zero quark mass. We observe important cancellations between the contributions from the axial anomaly and the quark mass term, and we discuss how these cancellations are linked to the conservation of angular momentum.

AB - In the Standard Model, the axial current is not conserved due to fermion masses and the axial anomaly. In this work, we employ perturbative quantum chromodynamics to evaluate the matrix elements of the local and non-local axial currents for a gluon target, providing insights into their relation with the axial anomaly. Our analysis revisits well-established results related to the nucleon spin sum rule, along with recent developments in off-forward kinematics. A significant aspect of our approach is the use of an infrared regulator, with a particular focus on the non-zero quark mass. We observe important cancellations between the contributions from the axial anomaly and the quark mass term, and we discuss how these cancellations are linked to the conservation of angular momentum.

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JO - Acta Physica Polonica B, Proceedings Supplement

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THE AXIAL CURRENT AND ITS DIVERGENCE

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