Carrier-doping effect and anomalous transport properties in Ni-doped CeCoIn5 investigated by Hall resistivity measurements

Abstract

We investigated the effects of Ni doping on carrier density and anomalous electrical transport properties in CeCo1-xNixIn5 (x ≤ 0.3) by performing Hall resistivity measurements. The carrier density, estimated from the Hall coefficient R H at a temperature of 0.5 K in high magnetic fields, increases linearly with x, indicating that the doped Ni ions act as electron dopants. In CeCoIn5, the magnitude of -R H is strongly enhanced at magnetic fields near the superconducting upper critical field Hc2 and in the low-field region above the superconducting transition temperature Tc. However, these anomalies are found to be significantly suppressed by Ni doping. Possible origins of this suppression in -R H are discussed.