Thermoelectric DC conductivities with momentum dissipation from higher derivative gravity
arXiv:1411.5452 · doi:10.1007/JHEP04(2015)135
Abstract
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 $β$: in the small $β$ limit, the DC conductivity is dominated by the coherent phase, while for larger $β$, 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.
1+19 pages, 2 figures,typos in Eq.(40) corrected