Behaviors of solutions for the Burgers equation with boundary corresponding to rarefaction waves

Tai Ping Liu; Akitaka Matsumura; Kenji Nishihara

Behaviors of solutions for the Burgers equation with boundary corresponding to rarefaction waves

Tai Ping Liu, Akitaka Matsumura, Kenji Nishihara

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

Abstract

We investigate the asymptotic behaviors of solutions of the initial-boundary value problem to the generalized Burgers equation u_t + f(u)_x = u_xx on the half-line with the conditions u(0, t) = u_-, u(∞, t) = u₊, where the corresponding Cauchy problem admits the rarefaction wave as an asymptotic state. In the present problem, because of the Dirichlet boundary, the asymptotic states are divided into five cases dependent on the signs of the characteristic speeds f′(u±) of the boundary state u_- = u(0) and the far field state u₊ = u(∞). In all cases both global existence of the solution and the asymptotic behavior are shown without smallness conditions. New wave phenomena are observed. For instance, when f′(u_-) < 0 < f′(u₊), the solution behaves as the superposition of (a part of) a viscous shock wave as boundary layer and a rarefaction wave propagating away from the boundary.

Original language	English
Pages (from-to)	293-308
Number of pages	16
Journal	SIAM Journal on Mathematical Analysis
Volume	29
Issue number	2
Publication status	Published - 1998 Mar

Keywords

Asymptotic behavior
Rarefaction wave
Viscous shock wave

ASJC Scopus subject areas

Mathematics(all)
Analysis
Applied Mathematics

Cite this

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title = "Behaviors of solutions for the Burgers equation with boundary corresponding to rarefaction waves",

abstract = "We investigate the asymptotic behaviors of solutions of the initial-boundary value problem to the generalized Burgers equation ut + f(u)x = uxx on the half-line with the conditions u(0, t) = u-, u(∞, t) = u+, where the corresponding Cauchy problem admits the rarefaction wave as an asymptotic state. In the present problem, because of the Dirichlet boundary, the asymptotic states are divided into five cases dependent on the signs of the characteristic speeds f′(u±) of the boundary state u- = u(0) and the far field state u+ = u(∞). In all cases both global existence of the solution and the asymptotic behavior are shown without smallness conditions. New wave phenomena are observed. For instance, when f′(u-) < 0 < f′(u+), the solution behaves as the superposition of (a part of) a viscous shock wave as boundary layer and a rarefaction wave propagating away from the boundary.",

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AU - Liu, Tai Ping

AU - Matsumura, Akitaka

AU - Nishihara, Kenji

PY - 1998/3

Y1 - 1998/3

N2 - We investigate the asymptotic behaviors of solutions of the initial-boundary value problem to the generalized Burgers equation ut + f(u)x = uxx on the half-line with the conditions u(0, t) = u-, u(∞, t) = u+, where the corresponding Cauchy problem admits the rarefaction wave as an asymptotic state. In the present problem, because of the Dirichlet boundary, the asymptotic states are divided into five cases dependent on the signs of the characteristic speeds f′(u±) of the boundary state u- = u(0) and the far field state u+ = u(∞). In all cases both global existence of the solution and the asymptotic behavior are shown without smallness conditions. New wave phenomena are observed. For instance, when f′(u-) < 0 < f′(u+), the solution behaves as the superposition of (a part of) a viscous shock wave as boundary layer and a rarefaction wave propagating away from the boundary.

AB - We investigate the asymptotic behaviors of solutions of the initial-boundary value problem to the generalized Burgers equation ut + f(u)x = uxx on the half-line with the conditions u(0, t) = u-, u(∞, t) = u+, where the corresponding Cauchy problem admits the rarefaction wave as an asymptotic state. In the present problem, because of the Dirichlet boundary, the asymptotic states are divided into five cases dependent on the signs of the characteristic speeds f′(u±) of the boundary state u- = u(0) and the far field state u+ = u(∞). In all cases both global existence of the solution and the asymptotic behavior are shown without smallness conditions. New wave phenomena are observed. For instance, when f′(u-) < 0 < f′(u+), the solution behaves as the superposition of (a part of) a viscous shock wave as boundary layer and a rarefaction wave propagating away from the boundary.

KW - Asymptotic behavior

KW - Rarefaction wave

KW - Viscous shock wave

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Behaviors of solutions for the Burgers equation with boundary corresponding to rarefaction waves

Abstract

Keywords

ASJC Scopus subject areas

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