期刊
CHAOS SOLITONS & FRACTALS
卷 152, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.chaos.2021.111411
关键词
Heisenberg ferromagnetic spin chain; Darboux transformation; Generalized Darboux transformation; Vector breathers; Matrix Lakshmanan-Porsezian-Daniel equation
资金
- BUPT Excellent Ph.D. Students Foundation [CX2021227]
- National Natural Science Foundation of China [11772017, 11,272,023, 11805020]
- Fund of State Key Laboratory of Information Photonics and Optical Communications (Beijing University of Posts and Telecommunications), China [IPOC: 2017ZZ05]
- Fundamental Research Funds for the Central Universities of China [2011BUPTYB02]
In this paper, the matrix Lakshmanan-Porsezian-Daniel equation in a Heisenberg ferromagnetic spin chain is studied, and the first-, second- and third-order vector breathers are derived using the generalized Darboux transformation method. The propagation of the first- and second-order vector breathers is shown, along with an analysis of the influence of higher-order linear and nonlinear effects on them. The results depend on the strength of the higher-order linear and nonlinear effects in the equation.
Spin waves, usually used in radar and communication system, are the collective excitation of spin system in ferromagnetic metals, and considered as potential data carriers for computing devices because they have nanometre wavelengths. In this paper, in a Heisenberg ferromagnetic spin chain, we study a matrix Lakshmanan-Porsezian-Daniel equation. With regard to the slowly-varying envelope of the wave, we work out the N-fold Darboux transformation, and then we construct the N-fold generalized Darboux transformation, where N is a positive integer. Furthmore, the first-, second-and third-order vector breathers are derived according to the generalized Darboux transformation method. We show the propagation for three kinds of the first-and second-order vector breathers, and also analyze the influence of the strength of the higher-order linear and nonlinear effects on the first-and second-order vector breathers. All our results rely on the strength of the higher-order linear and nonlinear effects in that equation. Our results may provide some help for people to study the nonlinear characteristics of magnetic materials. (c) 2021 Elsevier Ltd. All rights reserved.
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