We study the response of the QCD vacuum to an external magnetic field, in the presence of strong CP violation. Using chiral perturbation theory and large Nc expansion, we show that the external field would polarize quantum fluctuations and induce an electric dipole moment of the vacuum along the direction of the magnetic field. We estimate the magnitude of this effect in different physical scenarios. In particular, we find that the polarization induced by the magnetic field of a magnetar could accelerate electric charges up to energies of the order ∼θ103TeV. We also suggest a connection with the possible existence of "hot-spots" on the surface of neutron stars.
Millo, R., Faccioli, P. (2008). Strong CP Violation in External Magnetic Fields. PHYSICAL REVIEW D, PARTICLES, FIELDS, GRAVITATION, AND COSMOLOGY, 77(6) [10.1103/PhysRevD.77.065013].
Strong CP Violation in External Magnetic Fields
Faccioli, Pietro
2008
Abstract
We study the response of the QCD vacuum to an external magnetic field, in the presence of strong CP violation. Using chiral perturbation theory and large Nc expansion, we show that the external field would polarize quantum fluctuations and induce an electric dipole moment of the vacuum along the direction of the magnetic field. We estimate the magnitude of this effect in different physical scenarios. In particular, we find that the polarization induced by the magnetic field of a magnetar could accelerate electric charges up to energies of the order ∼θ103TeV. We also suggest a connection with the possible existence of "hot-spots" on the surface of neutron stars.
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