Stability of mode-locked kinks in the ac driven and damped sine-Gordon
  lattice

A. Barone; A.E. Miroshnichenko; A.V. Ustinov; C. Baesens; G. Filatrella; H.-J. Mikeska; J.A. Sepulchre; J.L. Marín; L.L. Bonilla; L.M. Floría; M. Peyrard; M.T. Levinsen; N. Grønbech-Jensen; O.M. Braun; P. Binder; P.J. Martínez; R.L. Kautz; R.L. Kautz; R.L. Kautz; S. Flach; S. Watanabe; Y. Zolotaryuk; Y. Zolotaryuk; Y.S. Kivshar

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Stability of mode-locked kinks in the ac driven and damped sine-Gordon lattice

Authors: A. Barone
A.E. Miroshnichenko
A.V. Ustinov
C. Baesens
G. Filatrella
H.-J. Mikeska
J.A. Sepulchre
J.L. Marín
L.L. Bonilla
L.M. Floría
M. Peyrard
M.T. Levinsen
N. Grønbech-Jensen
O.M. Braun
P. Binder
P.J. Martínez
R.L. Kautz
R.L. Kautz
R.L. Kautz
S. Flach
S. Watanabe
Y. Zolotaryuk
Y. Zolotaryuk
Y.S. Kivshar
Publication date: 11 June 2013
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

Kink dynamics in the underdamped and strongly discrete sine-Gordon lattice that is driven by the oscillating force is studied. The investigation is focused mostly on the properties of the mode-locked states in the {\it overband} case, when the driving frequency lies above the linear band. With the help of Floquet theory it is demonstrated that the destabilizing of the mode-locked state happens either through the Hopf bifurcation or through the tangential bifurcation. It is also observed that in the overband case the standing mode-locked kink state maintains its stability for the bias amplitudes that are by the order of magnitude larger than the amplitudes in the low-frequency case.Comment: To appear in Springer Series on Wave Phenomena, special volume devoted to the LENCOS'12 conference; 6 figure

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Last time updated on 03/12/2019