Fingerprints of Intrinsic Phase Separation: Magnetically Doped Two-Dimensional Electron Gas
Fingerprints of Intrinsic Phase Separation: Magnetically Doped Two-Dimensional Electron Gas
In addition to Anderson and Mott localization, intrinsic phase separation has long been advocated as the third fundamental mechanism controlling the doping-driven metal-insulator transitions. In electronic system, where charge neutrality precludes global phase separation, it may lead to various inhomogeneous states and dramatically affect transport. Here we theoretically predict the …