Field-induced carrier delocalization in the strain-induced Mott insulating state of an organic superconductor

Abstract

We report the influence of the field effect on the dc resistance and Hall coefficient in the strain-induced Mott insulating state of an organic superconductor -(BEDT-TTF)2Cu[N(CN)2]Br. Conductivity obeys the formula for activated transport σ = σ0(-W/kBT), where σ0 is a constant and W depends on the gate voltage. The gate voltage dependence of the Hall coefficient shows that, unlike in conventional FETs, the effective mobility of dense hole carriers (1.6× 1014 cm-2) is enhanced by a positive gate voltage. This implies that carrier doping involves delocalization of intrinsic carriers that were initially localized due to electron correlation.