Novel Energy Scale in the Interacting 2D Electron System Evidenced from Transport and Thermodynamic Measurements

Abstract

By analyzing the in-plane field magnetoconductivity, zero field transport, and thermodynamic spin magnetization in 2D correlated electron system in high mobility Si-MOS samples, we have revealed a novel high energy scale T*, beyond the Fermi energy. In magnetoconductivity, we found a sharp onset of the novel regime δ σ(B,T) (B/T)2 above a density dependent temperature T kink(n), the high-energy behavior that "mimics" the low-temperature diffusive interaction regime. The zero field resistivity temperature dependence exhibits an inflection point T infl. In thermodynamic magnetization, the weak field spin susceptibility per electron, ∂ /∂ n changes sign at TdM/d n. All three notable temperatures, T kink, T infl, and Td M/ d n, behave critically (n-nc), are close to each other, and are intrinsic to high mobility samples only; we therefore associate them with a novel energy scale T* caused by interactions in the 2DE system.