Applying the Network Simulation Method for testing chaos in a resistively and capacitively shunted Josephson junction model

Fernando Gimeno Bellver; Manuel Caravaca Garratón; Antonio Soto Meca; Juan Antonio Vera López; Juan L.G. Guirao; Manuel Fernández-Martínez

Results in Physics (Jan 2017)

Applying the Network Simulation Method for testing chaos in a resistively and capacitively shunted Josephson junction model

Fernando Gimeno Bellver,
Manuel Caravaca Garratón,
Antonio Soto Meca,
Juan Antonio Vera López,
Juan L.G. Guirao,
Manuel Fernández-Martínez

Affiliations

Fernando Gimeno Bellver: University Centre of Defence at the Spanish Air Force Academy, MDE-UPCT, C/Coronel López Peña s/n, 30720 Santiago de la Ribera, Murcia, Spain
Manuel Caravaca Garratón: University Centre of Defence at the Spanish Air Force Academy, MDE-UPCT, C/Coronel López Peña s/n, 30720 Santiago de la Ribera, Murcia, Spain
Antonio Soto Meca: University Centre of Defence at the Spanish Air Force Academy, MDE-UPCT, C/Coronel López Peña s/n, 30720 Santiago de la Ribera, Murcia, Spain
Juan Antonio Vera López: University Centre of Defence at the Spanish Air Force Academy, MDE-UPCT, C/Coronel López Peña s/n, 30720 Santiago de la Ribera, Murcia, Spain
Juan L.G. Guirao: Technical University of Cartagena, Department of Applied Mathematics and Statistics, Hospital de Marina, 30203 Cartagena, Spain
Manuel Fernández-Martínez: University Centre of Defence at the Spanish Air Force Academy, MDE-UPCT, C/Coronel López Peña s/n, 30720 Santiago de la Ribera, Murcia, Spain; Corresponding author.

Journal volume & issue: Vol. 7
pp. 813 – 822

Abstract

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In this paper, we explore the chaotic behavior of resistively and capacitively shunted Josephson junctions via the so-called Network Simulation Method. Such a numerical approach establishes a formal equivalence among physical transport processes and electrical networks, and hence, it can be applied to efficiently deal with a wide range of differential systems.The generality underlying that electrical equivalence allows to apply the circuit theory to several scientific and technological problems. In this work, the Fast Fourier Transform has been applied for chaos detection purposes and the calculations have been carried out in PSpice, an electrical circuit software.Overall, it holds that such a numerical approach leads to quickly computationally solve Josephson differential models. An empirical application regarding the study of the Josephson model completes the paper. Keywords: Electrical analogy, Network Simulation Method, Josephson junction, Chaos indicator, Fast Fourier Transform

Published in Results in Physics

ISSN: 2211-3797 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Science: Physics
Website: http://www.journals.elsevier.com/results-in-physics/

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