Open AccessGlobal Well-Posedness of a Non-local Burgers Equation: the periodic case
Author(s) -
Cyril Imbert,
Roman Shvydkoy,
François Vigneron
Publication year - 2016
Publication title -
annales de la faculté des sciences de toulouse mathématiques
Language(s) - English
Resource type - Journals
eISSN - 2258-7519
pISSN - 0240-2963
DOI - 10.5802/afst.1509
Subject(s) - nabla symbol , burgers' equation , bounded function , mathematics , mathematical analysis , partial differential equation , parabolic partial differential equation , pure mathematics , physics , quantum mechanics , omega
This paper is concerned with the study of a non-local Burgers equation for positive bounded periodic initial data. The equation reads $$ u_t - u |\nabla| u + |\nabla|(u^2) = 0. $$ We construct global classical solutions starting from smooth positive data, and global weak solutions starting from data in $L^\infty$. We show that any weak solution is instantaneously regularized into $C^\infty$. We also describe the long-time behavior of all solutions. Our methods follow several recent advances in the regularity theory of parabolic integro-differential equations.
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