Low-Temperature Holographic Conductivity
Abstract
We revisit holographic electrical conductivity in the regime of very low temperatures where quantum fluctuations in the throat of the near-extremal, asymptotically AdS4 dual black brane are strongly coupled. We treat the fluctuations via an effective two-dimensional action capturing the effects of the Schwarzian modes at the scale 1/C. Our main result is a non-monotonic temperature dependence: the quantum-corrected conductivity decreases as the temperature is lowered, reaches a minimum at (CTmin 0.023), and grows as (1/CT) for (CT 1). We further estimate the one-loop contribution to the conductivity directly from the four-dimensional gravitational path integral and find qualitative agreement with the effective two-dimensional description in the regime (CT 1). We find that quantum corrections substantially modify the low-temperature behavior of the holographic conductivity in both approaches.
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