Renormalization group approach to low temperature properties of a non-Fermi liquid metal

Chetan Nayak, Frank Wilczek

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148 Scopus citations


We expand upon an earlier renormalization group analysis of a non-Fermi liquid fixed point that plausibly governs the two-dimensional electron liquid in a magnetic field near filling fraction ν = 1 2. We give a more complete description of our somewhat unorthodox renormalization group transformation by relating both our field-theoretic approach to a direct mode elimination and our anisotropic scaling to the general problem of incorporating curvature of the Fermi surface. We derive physical consequences of the fixed point by showing how they follow from renormalization group equations for finite-size scaling, where the size may be set by the temperature or by the frequency of interest. In order fully to exploit this approach, it is necessary to take into account composite operators, including in some cases dangerous "irrelevant" operators. We devote special attention to gauge invariance, both as a formal requirement and in its positive role providing Ward identities constraining the renormalization of composite operators. We emphasize that new considerations arise in describing properties of the physical electrons (as opposed to the quasiparticles.) We propose an experiment which, if feasible, will allow the most characteristic feature of our results, that is the divergence of the effective mass of the quasiparticle near the nominal Fermi surface, to be tested directly. Some comparison with other recent, related work is attempted.

Original languageEnglish (US)
Pages (from-to)534-562
Number of pages29
JournalNuclear Physics, Section B
Issue number3
StatePublished - Nov 28 1994
Externally publishedYes

ASJC Scopus subject areas

  • Nuclear and High Energy Physics


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