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Applicant:
Central University of Tamil Nadu 
Author:
V. Senthil Kumar, L. Kavitha, C. Boopathy and D. Gopi 
Corresponding Authors:
L. Kavitha 
DOI #:
doi.org/10.1016/j.cnsns.2017.03.020 
Title:
Loss-less propagation, elastic and inelastic interaction of electromagnetic soliton in an anisotropic ferromagnetic nanowire 
Journal:
Communication Nonlinear Science and Numerical Simulation 
Year:
2017 
Volume:
51 
Page:
50-65 
Keywords:
Landau-Lifshitz-Gilbert equation, Magnetization dynamics, Electromagnetic soliton, Reductive perturbation method 
Abstract:
Nonlinear interaction of electromagnetic solitons leads to a plethora of interesting physical phenomena in the diverse area of science that include magneto-optics based data storage industry. We investigate the nonlinear magnetization dynamics of a one-dimensional anisotropic ferromagnetic nanowire. The famous Landau–Lifshitz–Gilbert equation (LLG) describes the magnetization dynamics of the ferromagnetic nanowire and the Maxwell’s equations govern the propagation dynamics of electromagnetic wave passing through the axis of the nanowire. We perform a uniform expansion of magnetization and magnetic field along the direction of propagation of electromagnetic wave in the framework of reductive perturbation method. The excitation of magnetization of the nanowire is restricted to the normal plane at the lowest order of perturbation and goes out of plane for higher orders. The dynamics of the ferromagnetic nanowire is governed by the modified Korteweg-de Vries (mKdV) equation and the perturbed modified Korteweg-de Vries (pmKdV) equation for the lower and higher values of damping respectively. We invoke the Hirota bilinearization procedure to mKdV and pmKdV equation to construct the multi-soliton solutions, and explicitly analyze the nature of collision phenomena of the co-propagating EM solitons for the above mentioned lower and higher values of Gilbert-damping due to the precessional motion of the ferromagnetic spin. The EM solitons appearing in the higher damping regime exhibit elastic collision thus yielding the fascinating state restoration property, whereas those of lower damping regime exhibit inelastic collision yielding the solitons of suppressed intensity profiles. The propagation of EM soliton in the nanoscale magnetic wire has potential technological applications in optimizing the magnetic storage devices and magneto-electronics. 
Entered by:
Kavitha Louis on 2020-09-03 
 
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