On the decay of solutions to the linearized equations of electro-magneto-fluid dynamics

Tomio Umeda; Shuichi Kawashima; Yasushi Shizuta

doi:10.1007/BF03167068

On the decay of solutions to the linearized equations of electro-magneto-fluid dynamics

Tomio Umeda, Shuichi Kawashima, Yasushi Shizuta

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

157 Citations (Scopus)

Abstract

The linearized equations of the electrically conducting compressible viscous fluids are studied. It is shown that the decay estimate (1+t)^-3/4 in L²(R³) holds for solutions of the above equations, provided that the initial data are in L²(R³)∩L¹(R³). Since the systems of equations are not rotationally invariant, the perturbation theory for one parameter family of matrices is not useful enough to derive the above result. Therefore, by exploiting an energy method, we show that the decay estimate holds for the solutions of a general class of equations of symmetric hyperbolic-parabolic type, which contains the linearized equations in both electro-magneto-fluid dynamics and magnetohydrodynamics.

Original language	English
Pages (from-to)	435-457
Number of pages	23
Journal	Japan Journal of Applied Mathematics
Volume	1
Issue number	2
DOIs	https://doi.org/10.1007/BF03167068
Publication status	Published - Dec 1984
Externally published	Yes

All Science Journal Classification (ASJC) codes

Engineering(all)
Applied Mathematics

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10.1007/BF03167068

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title = "On the decay of solutions to the linearized equations of electro-magneto-fluid dynamics",

abstract = "The linearized equations of the electrically conducting compressible viscous fluids are studied. It is shown that the decay estimate (1+t)-3/4 in L2(R3) holds for solutions of the above equations, provided that the initial data are in L2(R3)∩L1(R3). Since the systems of equations are not rotationally invariant, the perturbation theory for one parameter family of matrices is not useful enough to derive the above result. Therefore, by exploiting an energy method, we show that the decay estimate holds for the solutions of a general class of equations of symmetric hyperbolic-parabolic type, which contains the linearized equations in both electro-magneto-fluid dynamics and magnetohydrodynamics.",

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year = "1984",

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AU - Umeda, Tomio

AU - Kawashima, Shuichi

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Y1 - 1984/12

N2 - The linearized equations of the electrically conducting compressible viscous fluids are studied. It is shown that the decay estimate (1+t)-3/4 in L2(R3) holds for solutions of the above equations, provided that the initial data are in L2(R3)∩L1(R3). Since the systems of equations are not rotationally invariant, the perturbation theory for one parameter family of matrices is not useful enough to derive the above result. Therefore, by exploiting an energy method, we show that the decay estimate holds for the solutions of a general class of equations of symmetric hyperbolic-parabolic type, which contains the linearized equations in both electro-magneto-fluid dynamics and magnetohydrodynamics.

AB - The linearized equations of the electrically conducting compressible viscous fluids are studied. It is shown that the decay estimate (1+t)-3/4 in L2(R3) holds for solutions of the above equations, provided that the initial data are in L2(R3)∩L1(R3). Since the systems of equations are not rotationally invariant, the perturbation theory for one parameter family of matrices is not useful enough to derive the above result. Therefore, by exploiting an energy method, we show that the decay estimate holds for the solutions of a general class of equations of symmetric hyperbolic-parabolic type, which contains the linearized equations in both electro-magneto-fluid dynamics and magnetohydrodynamics.

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On the decay of solutions to the linearized equations of electro-magneto-fluid dynamics

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