Monday, October 8, 2012

1210.1590 (Richard J. Anantua et al.)

The Pauli exclusion principle at strong coupling: Holographic matter and
momentum space
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Richard J. Anantua, Sean A. Hartnoll, Victoria L. Martin, David M. Ramirez
For free fermions at finite density, the Pauli exclusion principle is responsible for the existence of a Fermi surface and the consequent presence of low energy spectral weight over a finite range of momenta. We investigate the extent to which this effect occurs in strongly interacting quantum matter with a holographic dual. We obtain the low energy current-current spectral weight in two holographic frameworks at finite density: systems exhibiting semi-local quantum criticality (with a low temperature entropy density vanishing like s ~ T^eta), and a probe D3/D5 system. For the semi-local theory with 0 < eta < 2 we find a sharp discontinuity in the transverse spectral weight at a nonzero momentum k_*. The case eta = 1 is found to have additional symmetries and is soluble even at nonzero temperature. We show that this case exhibits a robust linear in temperature resistivity in the presence of random charged impurities. For the probe D3/D5 system we find an analytic expression for the low energy spectral weight as a function of momentum. The spectral weight is supported below a specific momentum k_* and is exponentially suppressed at higher momenta.
View original: http://arxiv.org/abs/1210.1590

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