Giant frictional drag in strongly interacting bilayers near filling factor one
arXiv:0808.3807 · doi:10.1103/PhysRevB.79.041303
Abstract
We study the frictional drag in high mobility, strongly interacting GaAs bilayer hole systems in the vicinity of the filling factor $ν=1$ quantum Hall state (QHS), at the same fillings where the bilayer resistivity displays a reentrant insulating phase. Our measurements reveal a very large longitudinal drag resistivity ($Ï^{D}_{xx}$) in this regime, exceeding 15 k$Ω/\Box$ at filling factor $ν=1.15$. $Ï^{D}_{xx}$ shows a weak temperature dependence and appears to saturate at a finite, large value at the lowest temperatures. Our observations are consistent with theoretical models positing a phase separation, e.g. puddles of $ν=1$ QHS embedded in a different state, when the system makes a transition from the coherent $ν=1$ QHS to the weakly coupled $ν=2$ QHS.
4 pages, 4 figures