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A dialogue of lately built experimental tools for noise learn in nanoscale digital units, performed by means of experts in shipping and stochastic phenomena in nanoscale physics. The technique defined is to create tools for experimental observations of noise resources, their localization and their frequency spectrum, voltage-current and thermal dependences. Our present wisdom of size equipment for mesoscopic units is summarized to spot instructions for destiny study, concerning downscaling results.
The instructions for destiny study into fluctuation phenomena in quantum dot and quantum twine units are exact. Nanoscale digital units would be the easy elements for electronics of the twenty first century. From this perspective the signal-to-noise ratio is a vital parameter for the gadget program. because the noise can be a high quality and reliability indicator, experimental tools can have a large software sooner or later.
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Extra resources for Advanced Experimental Methods for Noise Research in Nanoscale Electronic Devices
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In , in which the authors state that the Fano factor for cascaded cavities should tend to the asymptotic limit 1/3, in analogy with what happens for a series of potential barriers, each of which is orthogonal to the propagation direction. Further investigation is needed to understand the discrepancy between the two approaches, which cannot be explained simply on the basis that our model is fully coherent while that of  assumes decoherence between adjacent cavities: the recent literature seems to agree on the irrelevance of the presence or lack of coherence on the noise behavior of mesoscopic devices.