Resistivity of the insulating phase approaching the 2D metal-insulator transition: the effect of spin polarization

Abstract

The resistivities of the dilute, strongly-interacting 2D electron systems in the insulating phase of a silicon MOSFET are the same for unpolarized electrons in the absence of magnetic field and for electrons that are fully spin polarized by the presence of an in-plane magnetic field. In both cases the resistivity obeys Efros-Shklovskii variable range hopping (T) = 0 exp[(TES/T)1/2], with TES and 1/0 mapping onto each other if one applies a shift of the critical density nc reported earlier. With and withoug magnetic field, the parameters TES and 1/0 = σ0 exhibit scaling consistent with critical behavior approaching a metal-insulator transition.