417 research outputs found

    Causality of black holes in 4-dimensional Einstein-Gauss-Bonnet-Maxwell theory

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    We study charged black hole solutions in 4-dimensional (4D) Einstein-Gauss-Bonnet-Maxwell theory to the linearized perturbation level. We first compute the shear viscosity to entropy density ratio. We then demonstrate how bulk causal structure analysis imposes a upper bound on the Gauss-Bonnet coupling constant in the AdS space. Causality constrains the value of Gauss-Bonnet coupling constant αGB\alpha_{GB} to be bounded by αGB≤0\alpha_{GB}\leq 0 as D→4D\rightarrow 4.Comment: 13 pages, minor revision, references adde

    Thermoelectric DC conductivities with momentum dissipation from higher derivative gravity

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    We present a mechanism of momentum relaxation in higher derivative gravity by adding linear scalar fields to the Gauss-Bonnet theory. We analytically computed all of the DC thermoelectric conductivities in this theory by adopting the method given by Donos and Gauntlett in [arXiv:1406.4742]. The results show that the DC electric conductivity is not a monotonic function of the effective impurity parameter β\beta: in the small β\beta limit, the DC conductivity is dominated by the coherent phase, while for larger β\beta, pair creation contribution to the conductivity becomes dominant, signaling an incoherent phase. In addition, the DC heat conductivity is found independent of the Gauss-Bonnet coupling constant.Comment: 1+19 pages, 2 figures,typos in Eq.(40) correcte
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