Integrable discretizations and self-adaptive moving mesh method for a coupled short pulse equation

Bao Feng Feng; Junchao Chen; Yong Chen; Ken Ichi Maruno; Yasuhiro Ohta

doi:10.1088/1751-8113/48/38/385202

Integrable discretizations and self-adaptive moving mesh method for a coupled short pulse equation

Bao Feng Feng, Junchao Chen, Yong Chen, Ken Ichi Maruno, Yasuhiro Ohta

School of Fundamental Science and Engineering

Research output: Contribution to journal › Article › peer-review

11 Citations (Scopus)

Abstract

In the present paper, integrable semi-discrete and fully discrete analogues of a coupled short pulse (CSP) equation are constructed. The key to the construction are the bilinear forms and determinant structure of the solutions of the CSP equation. We also construct N-soliton solutions for the semi-discrete and fully discrete analogues of the CSP equations in the form of Casorati determinants. In the continuous limit, we show that the fully discrete CSP equation converges to the semi-discrete CSP equation, then further to the continuous CSP equation. Moreover, the integrable semi-discretization of the CSP equation is used as a self-adaptive moving mesh method for numerical simulations. The numerical results agree with the analytical results very well.

Original language	English
Article number	385202
Journal	Journal of Physics A: Mathematical and Theoretical
Volume	48
Issue number	38
DOIs	https://doi.org/10.1088/1751-8113/48/38/385202
Publication status	Published - 2015 Sept 25

Keywords

coupled short pulse equation
integrable discretization
selfadaptive moving mesh method

ASJC Scopus subject areas

Statistical and Nonlinear Physics
Statistics and Probability
Modelling and Simulation
Mathematical Physics
Physics and Astronomy(all)

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10.1088/1751-8113/48/38/385202

Cite this

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title = "Integrable discretizations and self-adaptive moving mesh method for a coupled short pulse equation",

abstract = "In the present paper, integrable semi-discrete and fully discrete analogues of a coupled short pulse (CSP) equation are constructed. The key to the construction are the bilinear forms and determinant structure of the solutions of the CSP equation. We also construct N-soliton solutions for the semi-discrete and fully discrete analogues of the CSP equations in the form of Casorati determinants. In the continuous limit, we show that the fully discrete CSP equation converges to the semi-discrete CSP equation, then further to the continuous CSP equation. Moreover, the integrable semi-discretization of the CSP equation is used as a self-adaptive moving mesh method for numerical simulations. The numerical results agree with the analytical results very well.",

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T1 - Integrable discretizations and self-adaptive moving mesh method for a coupled short pulse equation

AU - Feng, Bao Feng

AU - Chen, Junchao

AU - Chen, Yong

AU - Maruno, Ken Ichi

AU - Ohta, Yasuhiro

PY - 2015/9/25

Y1 - 2015/9/25

N2 - In the present paper, integrable semi-discrete and fully discrete analogues of a coupled short pulse (CSP) equation are constructed. The key to the construction are the bilinear forms and determinant structure of the solutions of the CSP equation. We also construct N-soliton solutions for the semi-discrete and fully discrete analogues of the CSP equations in the form of Casorati determinants. In the continuous limit, we show that the fully discrete CSP equation converges to the semi-discrete CSP equation, then further to the continuous CSP equation. Moreover, the integrable semi-discretization of the CSP equation is used as a self-adaptive moving mesh method for numerical simulations. The numerical results agree with the analytical results very well.

AB - In the present paper, integrable semi-discrete and fully discrete analogues of a coupled short pulse (CSP) equation are constructed. The key to the construction are the bilinear forms and determinant structure of the solutions of the CSP equation. We also construct N-soliton solutions for the semi-discrete and fully discrete analogues of the CSP equations in the form of Casorati determinants. In the continuous limit, we show that the fully discrete CSP equation converges to the semi-discrete CSP equation, then further to the continuous CSP equation. Moreover, the integrable semi-discretization of the CSP equation is used as a self-adaptive moving mesh method for numerical simulations. The numerical results agree with the analytical results very well.

KW - coupled short pulse equation

KW - integrable discretization

KW - selfadaptive moving mesh method

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Integrable discretizations and self-adaptive moving mesh method for a coupled short pulse equation

Abstract

Keywords

ASJC Scopus subject areas

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