Reflections on the One Dimensional Realization of Odd-Frequency Pairing
arXiv:cond-mat/9610217 · doi:10.1088/0953-8984/9/2/002
Abstract
We discuss the odd-frequency pairing correlations discovered by Zachar, Kivelson and Emery (ZKE) in a one dimensional Kondo lattice. A lattice model that realizes the continuum theory of ZKE is introduced and the correlations it gives rise to are identified as odd-frequency singlet pairing. The excitation spectrum is found to contain a spin gap, and a much lower energy band of spinless excitations. We discuss how the power-law correlations realized in the ZKE model evolve into true long-range order when Kondo chains are weakly coupled together and tentatively suggest a way in which the higher dimensional model can be treated using mean-field theory.
13 pages, latex with two postscript figures. Proceedings of ITP conference on non-Fermi liquid behavior, to appear in J. Phys. Cond. Matt