Impact of silicon doping on low frequency charge noise and conductance drift in GaAs/AlGaAs nanostructures

Abstract

We present measurements of low frequency charge noise and conductance drift in modulation doped GaAs/AlGaAs heterostructures grown by molecular beam epitaxy in which the silicon doping density has been varied from 2.4× 1018 cm-3 (critically doped) to 6.0× 1018 cm-3 (overdoped). Quantum point contacts were used to detect charge fluctuations. A clear reduction of both short time scale telegraphic noise and long time scale conductance drift with decreased doping density was observed. These measurements indicate that the neutral doping region plays a significant role in charge noise and conductance drift.