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Comments on Critical Electric and Magnetic Fields from Holography

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arxiv 1210.4170 v3 pith:DVZU6VZC submitted 2012-10-15 hep-th

Comments on Critical Electric and Magnetic Fields from Holography

classification hep-th
keywords magneticfieldscriticalelectricfieldpairschwingerbackground
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We discuss some aspects of critical electric and magnetic fields in a field theory with holographic dual description. We extend the analysis of arxiv:1109.2920, which finds a critical electric field at which the Schwinger pair production barrier drops to zero, to the case of magnetic fields. We first find that, unlike ordinary weakly coupled theories, the magnetic field is not subject to any perturbative instability originating from the presence of a tachyonic ground state in the W-boson spectrum. This follows from the large value of the 't Hooft coupling \lambda, which prevents the Zeeman interaction term to overcome the particle mass at high B. Consequently, we study the next possible B-field instability, i.e. monopole pair production, which is the S-dual version of the Schwinger effect. Also in this case a critical magnetic field is expected when the tunneling barrier drops to zero. These Schwinger-type criticalities are the holographic duals, in the bulk, to the fields E or B reaching the tension of F1 or D1 strings respectively. We then discuss how this effect is modified when electric and magnetic fields are present simultaneously and dyonic states in the spectrum can be pair produced by a generic E - B background. Finally, we analyze finite temperature effects on Schwinger criticalities, i.e. in the AdS-Schwarzshild black hole background.

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  1. Holographic Schwinger Effect In a Step Dilaton Background

    hep-th 2026-04 unverdicted novelty 6.0

    A step dilaton background in holography yields sharper suppression of the pair-production barrier and greater sensitivity of the Schwinger effect to electric and magnetic fields than conventional soft-wall models.