Frequency-dependent low-frequency noise in mid-infrared quantum-cascade (QC) detectors, previously considered negligible, was experimentally investigated under the condition of high device resistance in which the Johnson–Nyquist noise is low. An excess noise increases inversely proportional to the frequency, with clear dependence on the device size and temperature, and no dependence on the number of cascade modules was observed. These experimental results exhibited qualitative agreement with a theoretical flicker noise model, which has been shown to explain the low-frequency noise in QC lasers well.
Dougakiuchi et al. (Mon,) studied this question.