Equivalent random propagation time for coaxial cables
Instrumentation and Detectors
2012-09-24 v1
Abstract
Propagation of monochromatic electromagnetic waves in free space results in a widening of the spectral line. On the contrary, propagation preserves monochromaticity in the case of acoustic waves. In this case, the propagation can be modelled by a linear invariant filter leading to attenuations and phases changes. Due to the Beer-Lambert law, the associated transfer function is an exponential of power functions with frequency-dependent parameters. In recent papers, we have proved that the acoustic propagation time can be modelled as a random variable following a stable probability distribution. In this paper, we show that the same model can be applied to the propagation in coaxial cables.
Cite
@article{arxiv.1209.4780,
title = {Equivalent random propagation time for coaxial cables},
author = {Bernard Lacaze},
journal= {arXiv preprint arXiv:1209.4780},
year = {2012}
}
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9 pages