Overscreening of magnetic impurities in \(d_{x^2-y^2}\) wave superconductors

We consider the screening of a magnetic impurity in a \(d_{x^2-y^2}\) wave superconductor. The properties of the \(d_{x^2-y^2}\) state lead to an unusual behavior in the impurity magnetic susceptibility, the impurity specific heat and in the quasiparticle phase shift which can be used to diagnose th...

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Bibliographic Details
Published in:arXiv.org 1997-07
Main Authors: Cassanello, Carlos R, Fradkin, Eduardo
Format: Article
Language:English
Subjects:
Impurities
Magnetic permeability
Phase transitions
Scaling laws
Specific heat
Online Access:Get full text
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Summary:We consider the screening of a magnetic impurity in a \(d_{x^2-y^2}\) wave superconductor. The properties of the \(d_{x^2-y^2}\) state lead to an unusual behavior in the impurity magnetic susceptibility, the impurity specific heat and in the quasiparticle phase shift which can be used to diagnose the nature of the condensed state. We construct an effective theory for this problem and show that it is equivalent to a multichannel (one per node) non-marginal Kondo problem with linear density of states and coupling constant J. There is a quantum phase transition from an unscreened impurity state to an overscreened Kondo state at a critical value J_c which varies with \(\Delta_0\), the superconducting gap away from the nodes. In the overscreened phase, the impurity Fermi level \(\epsilon_f\) and the amplitude \(\Delta\) of the ground state singlet vanish at J_c like \(\Delta_0 \exp(- const. / \Delta)\) and J-J_c respectively. We derive the scaling laws for the susceptibility and specific heat in the overscreened phase at low fields and temperatures.
ISSN:2331-8422
DOI:10.48550/arxiv.9704011