Unconventional superconductivity in the strong-coupling limit for the heavy fermion system CeCoIn5

FASANO, Y.; SZABÓ, P.; KA?MAR?ÍK, J.; PRIBULOVÁ, Z.; PEDRAZZINI, P.; SAMUELY, P.; CORREA, V.F.

PHYSICA B - CONDENSED MATTER

ELSEVIER SCIENCE BV

Año: 2018 vol. 536 p. 798 - 802

0921-4526

We present scanning tunneling spectroscopy measurements of the local quasiparticles´ excitation spectra of the heavy fermion CeCoIn5 between 440 mK and 3 K in samples with a bulk Tc=2.25K. The spectral shape of our low-temperature tunneling data, quite textbook nodal-Δ conductance, allow us to confidently fit the spectra with a d-wave density of states considering also a shortening of quasiparticles´ lifetime term Γ. The Δ(0) value obtained from the fits yields a BCS ratio 2Δ/kTc=7.73 suggesting that CeCoIn5 is an unconventional superconductor in the strong coupling limit. The fits also reveal that the height of coherence peaks in CeCoIn5 is reduced with respect to a pure BCS spectra and therefore the coupling of quasiparticles with spin excitations should play a relevant role. The tunneling conductance shows a depletion at energies smaller than Δ for temperatures larger than the bulk Tc, giving further support to the existence of a pseudogap phase that in our samples span up to T*∼1.2Tc. The phenomenological scaling of the pseudogap temperature observed in various families of cuprates, 2Δ/kT*∼4.3, is not fulfilled in our measurements. This suggests that in CeCoIn5 the strong magnetic fluctuations might conspire to close the local superconducting gap at a smaller pesudogap temperature-scale than in cuprates.