Unconventional resistivity at the border of metallic antiferromagnetism in NiS2
arXiv:cond-mat/0610166 · doi:10.1103/PhysRevB.77.115135
Abstract
We report low-temperature and high-pressure measurements of the electrical resistivity Ï(T) of the antiferromagnetic compound NiS_2 in its high-pressure metallic state. The form of Ï(T) suggests that metallic antiferromagnetism in NiS_2 is quenched at a critical pressure p_c=76+-5 kbar. Near p_c the temperature variation of Ï(T) is similar to that observed in NiS_{2-x}Se_x near the critical composition x=1 where the Neel temperature vanishes at ambient pressure. In both cases Ï(T) varies approximately as T^{1.5} over a wide range below 100 K. However, on closer analysis the resistivity exponent in NiS_2 exhibits an undulating variation with temperature not seen in NiSSe (x=1). This difference in behaviour may be due to the effects of spin-fluctuation scattering of charge carriers on cold and hot spots of the Fermi surface in the presence of quenched disorder, which is higher in NiSSe than in stoichiometric NiS_2.
7 pages