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Magnetic Catalysis is a known proposal for inducing dynamical axionic gapped phases by means of external magnetic fields from a Weyl or Dirac semimetal phase. At finite Fermi level, the phase transition is of first order type and the magnetic field needs to reach a critical value for the transition to take place. Using the theory of bubble nucleation, we predict the order parameter features a hysteretic behavior as a function of the external magnetic field. We also analyze the experimental consequences of this hysteretic behavior in several observables like magneto-conductivity, magnetic susceptibility and nonlinear optical coefficients. This hysteretic behavior might serve as a fingerprint of Magnetic Catalysis in Condensed Matter systems.
Aubán et al. (Tue,) studied this question.
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