Superconductivity from a non-Fermi liquid metal : Kondo fluctuation mechanism in the slave-fermion theory

Abstract

We find new mechanism of superconductivity beyond the spin-fluctuation theory, the standard model for unconventional superconductivity in the weak coupling approach, where Kondo fluctuations result in multi-gap superconductivity around an antiferromagnetic quantum critical point of the slave-fermion theory. Fingerprints of the hybridization mechanism are two kinds of resonance modes in not only spin but also charge fluctuations, originating from d-wave pairing of conduction electrons and spinless holons, respectively, thus differentiated from the spin-fluctuation mechanism. We show that the ratio between each superconducting gap for conduction electrons c and holons f and the transition temperature Tc is 2c / Tc 9 and 2f / Tc O(10-1), remarkably consistent with CeCoIn5.