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Conductance noise in nano-patterned PbS quantum dot arrays

We report unexpectedly large noise in the current from nanopatterned PbS quantum dot films. The noise is proportional to the current when the latter is varied by changing the source-drain bias, gate voltage or temperature. The spectral density of the noise is given by a power law in frequency at room temperature, but remarkably, we observe a transition to telegraph noise at lower temperatures. The probability distribution of the off-times follows a power law, reminiscent of fluorescence blinking in colloidal quantum dot systems. Our results are understood simply in terms of conductance fluctuations in a quasi-one dimensional percolation path, and more rigorously in terms of a model in which charge through the film is transmitted in discrete time intervals, with the distribution of intervals completely described by Levy statistics.

preprint2015arXivOpen access
Tamar S. MentzelNirat RayNeal E. StaleyMarc A. KastnerDarcy D. W. GrinoldsMoungi G. Bawendi
cond-mat.mes-hall
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Tamar S. MentzelNirat RayNeal E. StaleyMarc A. KastnerDarcy D. W. GrinoldsMoungi G. Bawendi

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