Novel Phases of Planar Fermionic Systems
Abstract
We discuss a family of planar (two-dimensional) systems with the following phase strucure: a Fermi liquid, which goes by a second order transition (with non classical exponent even in mean-field) to an intermediate, inhomogeneous state (with nonstandard ordering momentum) , which in turn goes by a first order transition to a state with canonical order parameter. We analyze two examples: (i) a superconductor in a parallel magnetic field (which was discussed independently by Bulaevskii)for which the inhomogeneous state is obtained for 1.86 Tc < B < 1.86 2 Tc where Tc is the critical temperature (in Kelvin) of the superconductor without a field and B is measured in Tesla, and (ii) spinless (or, as is explained, spin polarized) fermions near half-filling where a similar, sizeable window (which grows in size with anisotropy) exists for the intermediate CDW phase at an ordering momentum different from (π , π ). We discuss the experimental conditions for realizing and observing these phases and the Renormalization Group approach to the transitions.
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