ON THE SELF-SIMILAR SOLUTIONS OF THE MAGNETO-HYDRO-DYNAMIC EQUATIONS

doi:10.1016/S0252-9602(09)60055-2

数学物理学报(英文版) ›› 2009, Vol. 29 ›› Issue (3): 583-598.doi: 10.1016/S0252-9602(09)60055-2

ON THE SELF-SIMILAR SOLUTIONS OF THE MAGNETO-HYDRO-DYNAMIC EQUATIONS

何成,辛周平

Department of Mathematics and The Institute of Mathematical Sciences, The Chinese University of Hong Kong, Shatin, N. T., Hong Kong, China|Center for Nonlinear Studies, Northwest University, Xi’an 710069, China

收稿日期:2008-10-27 出版日期:2009-05-20 发布日期:2009-05-20
基金资助:
The research of He is supported in part by The 973 key Program (2006CB805902), and Knowledge Innovation Funds of CAS(KJCX3-SYW-S03) , People’s Republic of China. The research of Xin is supported in part by the Zheng Ge Ru Foundation and Hong Kong RGC Earmarked Research Grants and a research grant from the Center on Nonlinear Studies, Northwest University

ON THE SELF-SIMILAR SOLUTIONS OF THE MAGNETO-HYDRO-DYNAMIC EQUATIONS

HE Cheng, XIN Zhou-Beng

Department of Mathematics and The Institute of Mathematical Sciences, The Chinese University of Hong Kong, Shatin, N. T., Hong Kong, China|Center for Nonlinear Studies, Northwest University, Xi’an 710069, China

Received:2008-10-27 Online:2009-05-20 Published:2009-05-20
Supported by:
The research of He is supported in part by The 973 key Program (2006CB805902), and Knowledge Innovation Funds of CAS(KJCX3-SYW-S03) , People’s Republic of China. The research of Xin is supported in part by the Zheng Ge Ru Foundation and Hong Kong RGC Earmarked Research Grants and a research grant from the Center on Nonlinear Studies, Northwest University

摘要/Abstract

摘要：

In this paper, we show that, for the three dimensional incompressible magneto-hydro-dynamic equations, there exists only trivial backward self-similar solution in Lp(R3) for p 3, under some smallness assumption on either the kinetic energy of the self-similar solution related to the velocity field, or the magnetic field. Second, we construct a class of global unique forward self-similar solutions to the three-dimensional MHD equations with
small initial data in some sense, being homogeneous of degree −1 and belonging to some Besov space, or the Lorentz space or pseudo-measure space, as motivated by the work in[5].

关键词: magneto-hydro-dynamics equations, backward self-similar solutions, forward self-similar solutions

Abstract:

Key words: magneto-hydro-dynamics equations, backward self-similar solutions, forward self-similar solutions

中图分类号:

何成, 辛周平. ON THE SELF-SIMILAR SOLUTIONS OF THE MAGNETO-HYDRO-DYNAMIC EQUATIONS[J]. 数学物理学报(英文版), 2009, 29(3): 583-598.

HE Cheng, XIN Zhou-Beng. ON THE SELF-SIMILAR SOLUTIONS OF THE MAGNETO-HYDRO-DYNAMIC EQUATIONS[J]. Acta mathematica scientia,Series B, 2009, 29(3): 583-598.

参考文献

[1] Barraza Oscar A. Self-similar solutions in weak Lp-spaces of the Navier-Stokes equations. Revista Math
Iberoamericana, 1996, 12: 411–439

[2] Caffarelli L, Kohn R, Nirenberg L. Partial regularity of suitable weak solution of the Navier-Stokes equa-
tions. Comm Pure Appl Math, 1982 35: 771–837

[3] Cannone M. A generalization of a theorem by Kato on Navier-Stokes equations. Revista Math Iberoamer-
icana, 1997, 13: 515–541

[4] Cannone M, Karch G. Smooth or singular solutions to the Navier-Stokes system? J Differential Equations,
2004, 197: 247–274

[5] Cannone M. Harmonic analysis tools for solving the incompressible Navier-Stokes equations//Friedlander
S, Serre D, eds. Handbook of Mathematical Fluid Dynamics. Elsevier, 2004

[6] Chen Z -M, Xin Z. Homogeneity Criterion for the Navier-Stokes Equations in the whole space. J Math
Fluid Mech, 2001, 3: 152–182

[7] Duvaut G, Lions J L. In′equations en thermo′elasticit′e et magn′etohydrodynamique. Archive Rational Mech
Anal, 1972, 46: 241–279

[8] Foias C, Manley O P, Temam R. New representation of the Navier-Stokes equations governing self-similar
homogeneous terbulence. Phys Rev Lett, 1983, 51: 269–315

[9] Galdi G P. An Introduction to the Mathematical Theory of Navier-Stokes Equations, Vol 1, Linearized
Stationary Problems. Springer Tracts Nat Philos, 38. New York: Springer-Verlag, 1994

[10] Giga Y, Miyakawa T. Navier-Stokes flows in R3 with measure s as initial vorticity and the Morrey spaces.
Comm Partial Differ Equas, 1989, 14: 577–618

[11] He C, Xin Z. Partial regularity of suitable weak solutions to the incompressible magnetohydrodynamic
equations. J Function Analysis, 2005, 227: 113–152

[12] He C, Xin Z. On the regularity of solutions to the magnetohydrodynamic equations. J Differential Equa-
tions, 2005, 213(2): 235–254

[13] He C, Wang Y. On the regularity criteria for weak solutions to the magnetohydrodynamic equations. J
Differ Equas, 2007, 238: 1–17

[14] He C, Wang Y. Remark on the regularity for weak solutions to the magnetohydrodynamic equations. Math
Meth Appl Sci, 2008, 31: 1667–1684

[15] Lemari′e-Rieusset P G. Recent Developments in the Navier-Stokes Problem. Research Notes in Mathemat-
ics. Chapman & Hall/CRC, 2002

[16] Leray J. Sur le mouvement d’un liquide visqueux emplissant l’espace. Acta Math, 1934, 63: 193–248

[17] Meyer Y. Wavelets, paraproducts and Navier-Stokes equations//Current Developments in Mathematics
1996. Somerville, MA: International Press, 1997. 105-212

[18] Neˇcas J, R°uˇziˇcka M, ˇ Sver´ak V. On Leray’s self-similar solutions of the Navier-Stokes equations. Acta
Math, 1996, 176: 283–294

[19] Sermange M, Teman R. Some mathematical questions related to the MHD equations. Comm Pure Appl
Math, 1983, 36: 635–664

[20] Stein E. Singular Integrals and Differentiability Properties of Functions. Princeton Math Ser, 30. Prince-
ton: Princeton University Press, 1970

[21] Talenti G. Best constant in Sobolev inequality. Ann Mat Pura Appl, 1976, 110: 353–372

[22] Tian G, Xin Z. One point singular solutions to the Navier-Stokes equations. Topological Meth Nonl Anal,
1998, 11: 135–145

[23] Tsai Tai-peng. On Leray’s self-similar solutions of the Navier-Stokes equations satisfying local energy
estimates. Archive Rational Mech Anal, 1998, 143: 29–51

[24] Wang Y. BMO and the regularity criterion for weak solutions to the magnetohydrodynamic equations. J
Math Appl Anal, 2007, 328: 1082–1086

[25] Zhou Y. Remarks on regularities for the 3D MHD equations. Disc Cont Dyna Sys, 2005, 12: 881–886

ON THE SELF-SIMILAR SOLUTIONS OF THE MAGNETO-HYDRO-DYNAMIC EQUATIONS

ON THE SELF-SIMILAR SOLUTIONS OF THE MAGNETO-HYDRO-DYNAMIC EQUATIONS

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