Transfer function of an asymmetric superconducting Gauss neuron

Transfer function of an asymmetric superconducting Gauss neuron

The Gauss neuron is a nonlinear signal converter, whose transfer function (TF) is described by the derivative of some sigmoidal dependence. A superconducting Gauss neuron can be implemented as a two-junction interferometer shunted symmetrically by an additional inductance. This work analyzes three c...

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Bibliographic Details
Main Authors: Fedor A. Razorenov, Aleksander S. Ionin, Nikita S. Shuravin, Liubov N. Karelina, Mikhail S. Sidel’nikov, Sergey V. Egorov, Vitaly V. Bol’ginov
Format: Article
Language:English
Published: Beilstein-Institut 2025-07-01
Series:Beilstein Journal of Nanotechnology
Subjects:
josephson interferometers
superconducting neural network
superconductivity
Online Access:https://doi.org/10.3762/bjnano.16.85
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Summary:The Gauss neuron is a nonlinear signal converter, whose transfer function (TF) is described by the derivative of some sigmoidal dependence. A superconducting Gauss neuron can be implemented as a two-junction interferometer shunted symmetrically by an additional inductance. This work analyzes three cases of asymmetry that can occur in the experimental samples of Gauss neurons, that is, unequal critical currents of the interferometer’s Josephson junctions, asymmetric inductive shunting, and asymmetry of the input signal supply. We illustrate the modifications in equations and the shape of the TF compared to the symmetric case. The analysis performed provides an explanation for the key features observed in a previously conducted experiment.
ISSN:2190-4286

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