Anomalous electron-phonon coupling probed on the surface of ZrB12 superconductor

Abstract

Magnetization measurements under hydrostatic pressure up to 10.5 kbar in zirconium dodecaboride ZrB12 superconductor (Tc6.0 K at p=0) were carried out. A negative pressure effect on Tc with d Tc/ d p =-0.0225(3) K/kbar was observed. The electron-phonon coupling constant λel-ph decreases with increasing pressure with dλel-ph/ dp-0.20%/kbar. The magnetic field penetration depth λ was studied in the Meissner state and, therefore, probes only the surface of the sample. The absolute values of λ and the superconducting energy gap at ambient pressure and zero temperature were found to be λ(0)=140(30) nm and 0=1.251(9) meV, respectively. 0 scales linearly with Tc as 20/kBTc=4.79(1). The studies of the pressure effect on λ reveal that λ-2 increases with pressure with dλ-2(0)/ dp=0.60(23) %/kbar. This effect can not be explained within the framework of conventional adiabatic electron-phonon pairing, suggesting that close to the surface, an unconventional non-adiabatic character of the electron-phonon coupling takes place.