HEAD-ON COLLISION BETWEEN TWO mKdV SOLITARY WAVES IN A TWO-LAYER FLUID SYSTEM

Applied Mathematics and Mechanics (English Edition) ›› 1992, Vol. 13 ›› Issue (5): 407-417.

HEAD-ON COLLISION BETWEEN TWO mKdV SOLITARY WAVES IN A TWO-LAYER FLUID SYSTEM

朱勇

Laboratory for Nonlinear Mechanics of Continuous Media, Inst.of Mech., CAS, Beijing

收稿日期:1991-04-26 出版日期:1992-05-18 发布日期:1992-05-18

HEAD-ON COLLISION BETWEEN TWO mKdV SOLITARY WAVES IN A TWO-LAYER FLUID SYSTEM

Zhu Yong

Laboratory for Nonlinear Mechanics of Continuous Media, Inst.of Mech., CAS, Beijing

Received:1991-04-26 Online:1992-05-18 Published:1992-05-18

摘要/Abstract

摘要： In this paper, based on the equations presented in [2], the head-on collision between two solitary waves described by the modified KdV equation (the mKdVequation, for short) is investigated by using the reductive perturbation method combined with the PLK method.These waves propagate at the interface of a two-fluid system, in which the density ratio of the two fluids equals the square of the depth ratio of the fluids.The second order perturbation solution is obtained.It is found that in the case of disregarding the nonuniform phase shift, the solitary waves preserve their original profiles after collision, which agrees with Fornberg and Whitham’s numerical result of overtaking collision[6] whereas after considering the nonuniform phase shift, the wave profiles may deform after collision.

关键词: mKdV solitary wave, head-on collision, perturbation method

Abstract: In this paper, based on the equations presented in [2], the head-on collision between two solitary waves described by the modified KdV equation (the mKdVequation, for short) is investigated by using the reductive perturbation method combined with the PLK method.These waves propagate at the interface of a two-fluid system, in which the density ratio of the two fluids equals the square of the depth ratio of the fluids.The second order perturbation solution is obtained.It is found that in the case of disregarding the nonuniform phase shift, the solitary waves preserve their original profiles after collision, which agrees with Fornberg and Whitham’s numerical result of overtaking collision[6] whereas after considering the nonuniform phase shift, the wave profiles may deform after collision.

Key words: mKdV solitary wave, head-on collision, perturbation method

朱勇. HEAD-ON COLLISION BETWEEN TWO mKdV SOLITARY WAVES IN A TWO-LAYER FLUID SYSTEM[J]. Applied Mathematics and Mechanics (English Edition), 1992, 13(5): 407-417.

Zhu Yong . HEAD-ON COLLISION BETWEEN TWO mKdV SOLITARY WAVES IN A TWO-LAYER FLUID SYSTEM[J]. Applied Mathematics and Mechanics (English Edition), 1992, 13(5): 407-417.

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HEAD-ON COLLISION BETWEEN TWO mKdV SOLITARY WAVES IN A TWO-LAYER FLUID SYSTEM

HEAD-ON COLLISION BETWEEN TWO mKdV SOLITARY WAVES IN A TWO-LAYER FLUID SYSTEM

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