Unconventional superconductivity from crystal field fluctuations
Abstract
We present a novel pairing mechanism for superconductivity in strongly correlated electron systems, which often have both localised and itinerant charge carriers. An effective anisotropic interaction between the itinerant particles originates from the fluctuations in the crystal field associated with virtual hopping of the localised particles, a process that is also responsible for the Kondo exchange. Interestingly, this interaction is attractive for charge transfer insulators such as cuprates. Considering a simple toy model for cuprates, without the antiferromagnetic exchange, this interaction leads to the correct d-wave superconducting gap, thus demonstrating its relevance.
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