ω/T scaling and magnetic quantum criticality in BaFe2(As0.7P0.3)2

Abstract

We used transport and inelastic neutron scattering to study the optimally phosphorus-doped BaFe2(As0.7P0.3)2 superconductor (Tc = 30 K). In the normal state, we find that the previously reported linear temperature dependence of the resistivity below room temperature extends to 500 K. Our analysis of the temperature and energy (E=ω) dependence of spin dynamical susceptibility at the antiferromagnetic (AF) ordering wave vector ( Q AF,ω) reveal an ω / T scaling within 1.1<E/kBT<110. These results suggest that the linear temperature dependence of the resistivity is due to the presence of a magnetic quantum critical point in the cleanest iron pnictides near optimal superconductivity. Moreover, the results reconcile the strange-metal temperature dependences with the weakly first-order nature of the quantum transition out of the AF and nematic orders.