We report resistivity measurements of a CrAs single crystal in a wide temperature range, with the specific aim to assess the applicability of the Bloch-Gruneisen formula for electronphonon resistivity. We find that the resistance reaches a residual value at Tc ~ 4.2K and its temperature dependence cannot be fitted only with a suitable Bloch-Gruneisen formula in the whole temperature range, even though we are able to calculate a well-defined transport Debye temperature. The observed temperature-dependent resistivity seems to suggest a non-phononmediated superconducting pairing, supporting a magnetic fluctuation mechanism as the likely glue for the superconducting coupling.
Resistivity measurements unveil microscopic properties of CrAs
Nigro A;Noce C
2019
Abstract
We report resistivity measurements of a CrAs single crystal in a wide temperature range, with the specific aim to assess the applicability of the Bloch-Gruneisen formula for electronphonon resistivity. We find that the resistance reaches a residual value at Tc ~ 4.2K and its temperature dependence cannot be fitted only with a suitable Bloch-Gruneisen formula in the whole temperature range, even though we are able to calculate a well-defined transport Debye temperature. The observed temperature-dependent resistivity seems to suggest a non-phononmediated superconducting pairing, supporting a magnetic fluctuation mechanism as the likely glue for the superconducting coupling.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
