Browsing by Author "Holder, Tobias"

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    Quantum fluctuations in two-dimensional metals with singular forward scattering
    (2015) Holder, Tobias; Metzner, Walter (Prof. Dr.)
    This thesis investigates the low-energy theory of two-dimensional metals with singular forward scattering in the charge channel. Singular forward scattering occurs for example at a nematic quantum critical point or when electrons at a finite density are coupled to a U(1) gauge field. The universal scaling laws present in the quantum critical regime are strongly affected by quantum fluctuations. In this work, fluctuation effects are systematically taken into account within a field-theoretic renormalization group approach. The primary object of study are the effective N-point density vertices, as the determination of their frequency and momentum dependence allows to precisely characterize the fluctuation contributions in each loop order. Two simple rules are derived which allow to improve the power counting estimate of N-point density vertices in the UV. Using these rules it is possible to exclude polynomially divergent contributions to the bosonic self-energy. The improved power counting not only recovers the results of previous explicit calculations up to three loop order in a general scheme but also predicts the appearance of singular self-energy corrections to the bosonic self-energy from diagrams with four loops. In the second part this prediction is confirmed by an explicit calculation. To this end a certain subset of diagrams of four loop order is calculated, which suffices to establish the presence of a singular contribution. Surprisingly, the singularity has the form of a power of a logarithm, preventing the interpretation as a finite renormalization of the dynamical critical exponent in the low-energy theory. The possible physical consequences of this behavior for the considered two-dimensional metals with singular forward scattering are outlined.