Non-Fermi Liquid Fixed Point in 2+1 Dimensions
Abstract
We construct models of excitations about a Fermi surface that display calculable deviations from Fermi liquid behavior in the low-energy limit. They arise as a consequence of coupling to a Chern-Simons gauge field, whose fluctations are controlled through a 1kx interaction. The Fermi liquid fixed point is shown to be unstable in the infrared for x<1, and an infrared-stable fixed point is found in a (1-x)-expansion, analogous to the ε-expansion of critical phenomena. x=1 corresponds to Coulomb interactions, and in this case we find a logarithmic approach to zero coupling. We describe the low-energy behavior of metals in the universality class of the new fixed point, and discuss its possible application to the compressible =12 quantum Hall state and to the normal state of copper-oxide superconductors.
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