Change of Fermi surface states related with two different T c-raising mechanisms in iron pnictide superconductor

Abstract

Evolution of Fermi surface (FS) states of NdFeAs1-xPxO0.9F0.1 single crystals with As/P substitution has been investigated. The critical temperature T c and the power law exponent (n) of temperature-dependent resistivity ((T) = 0 + ATn) show a clear correlation above x=0.2, suggesting that T c is enhanced with increasing bosonic fluctuation in the same type of FS state. Around x=0.2, all the transport properties show anomalies, indicating that x0.2 is the critical composition of drastic FS change. The angle resolved photoemission spectroscopy has more directly revealed the distinct change of FS around x=0.2, that one hole FS disappears at Brillouin zone center and the other FS with propeller like shape appears at zone corner with decreasing x. These results are indicative of the existence of two types of FS state with different nesting conditions that are related with two T c-rising mechanisms in this system.