Spectroscopic Evidence for the Direct Involvement of Local Moments in the Pairing Process of the Heavy-Fermion Superconductor CeCoIn₅

The electron pairing in heavy-fermion superconductors has been widely considered to be mediated by antiferromagnetic spin fluctuations. Nonetheless, the exact origin of the neutron spin resonance in CeCoIn₅ remains controversial and the corresponding tunneling signature is missing, contrary to other unconventional superconductors including the cuprate and Fe-based superconductors. Here we report results from planar tunneling spectroscopy performed along three major crystallographic orientations of CeCoIn₅ [1]. Our detailed and reproducible conductance spectra provide strong evidence for: i) the existence of preformed pairs well above T_c; and ii) the direct involvement of localized f-electron moments in the pairing process, suggesting that the local physics manifested via the Kondo resonance plays a key role. We will discuss the underlying microscopic mechanism in terms of a proposed theoretical model [2].

[1] K. Shrestha et al., submitted to PRX (2020).
[2] R. Flint et al., Nat. Phys. 4, 643 (2008); PRL 105, 246404 (2010).