Abstract:
We study spatial Wilson loops for a fully anisotropic background metric supported by the Einstein action with a dilaton field and three Maxwell tensors. We show that the asymptotic form of these Wilson loops depends strongly on the anisotropy parameters and the magnetic field $c_{\scriptscriptstyle{B}}$ and also on the temperature $T$ and chemical potential $\mu$ and that the corresponding string tensions undergo a phase transition. We find the phase transition surfaces in the space $T$, $\mu$, $c_{\scriptscriptstyle{B}}$.
Keywords:holography, spatial Wilson loop, phase transition, magnetic field.
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