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Main Authors: Gao, Fei, Lu, Yi, Ding, Minghui, Wang, Xinyang, Liu, Yuxin
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.24410
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author Gao, Fei
Lu, Yi
Ding, Minghui
Wang, Xinyang
Liu, Yuxin
author_facet Gao, Fei
Lu, Yi
Ding, Minghui
Wang, Xinyang
Liu, Yuxin
contents Through analyzing the quark propagator under the magnetic field, we establish that the axial anomaly originates from an additional Dirac structure in quark propagator induced by the magnetic field. This Dirac structure also allows one to connect the axial anomaly with the topological properties of the system by checking the axial vector Ward identity. For the tree level propagator, we reproduce the result of the anomalous axial current as in the Dirac Hamiltonian approach and kinetic theory. Particularly, we confirm that the chiral magnetic effect (CME) comes from the same term that is in charge of the axial anomaly, specifically, as the anomaly of the transversal axial vector Ward Identity. The identity guarantees that the CME conductivity $C_{\rm CME}$ is a constant as $C_{\rm CME}=\frac{1}{2π^2}$, and is robust against the temperature, chemical potential, magnetic field and also interaction. Finally, we verify this numerically by applying the full quark propagator under magnetic field calculated from the functional QCD methods.
format Preprint
id arxiv_https___arxiv_org_abs_2604_24410
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Chiral Magnetic effect as the anomaly in the transverse axial vector Ward Identity
Gao, Fei
Lu, Yi
Ding, Minghui
Wang, Xinyang
Liu, Yuxin
High Energy Physics - Theory
High Energy Physics - Phenomenology
Nuclear Experiment
Through analyzing the quark propagator under the magnetic field, we establish that the axial anomaly originates from an additional Dirac structure in quark propagator induced by the magnetic field. This Dirac structure also allows one to connect the axial anomaly with the topological properties of the system by checking the axial vector Ward identity. For the tree level propagator, we reproduce the result of the anomalous axial current as in the Dirac Hamiltonian approach and kinetic theory. Particularly, we confirm that the chiral magnetic effect (CME) comes from the same term that is in charge of the axial anomaly, specifically, as the anomaly of the transversal axial vector Ward Identity. The identity guarantees that the CME conductivity $C_{\rm CME}$ is a constant as $C_{\rm CME}=\frac{1}{2π^2}$, and is robust against the temperature, chemical potential, magnetic field and also interaction. Finally, we verify this numerically by applying the full quark propagator under magnetic field calculated from the functional QCD methods.
title Chiral Magnetic effect as the anomaly in the transverse axial vector Ward Identity
topic High Energy Physics - Theory
High Energy Physics - Phenomenology
Nuclear Experiment
url https://arxiv.org/abs/2604.24410