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Bulletin of the American Mathematical Society
Bulletin of the American Mathematical Society
ISSN 1088-9485(online) ISSN 0273-0979(print)

 

Why are solitons stable?


Author: Terence Tao
Journal: Bull. Amer. Math. Soc. 46 (2009), 1-33
MSC (2000): Primary 35Q51
Published electronically: September 5, 2008
MathSciNet review: 2457070
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Abstract: The theory of linear dispersive equations predicts that waves should spread out and disperse over time. However, it is a remarkable phenomenon, observed both in theory and practice, that once nonlinear effects are taken into account, solitary wave or soliton solutions can be created, which can be stable enough to persist indefinitely. The construction of such solutions can be relatively straightforward, but the fact that they are stable requires some significant amounts of analysis to establish, in part due to symmetries in the equation (such as translation invariance) which create degeneracy in the stability analysis. The theory is particularly difficult in the critical case in which the nonlinearity is at exactly the right power to potentially allow for a self-similar blowup. In this article we survey some of the highlights of this theory, from the more classical orbital stability analysis of Weinstein and Grillakis-Shatah-Strauss, to the more recent asymptotic stability and blowup analysis of Martel-Merle and Merle-Raphael, as well as current developments in using this theory to rigorously demonstrate controlled blowup for several key equations.


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Additional Information

Terence Tao
Affiliation: UCLA Department of Mathematics, Los Angeles, California 90095-1596
Email: tao@@math.ucla.edu

DOI: http://dx.doi.org/10.1090/S0273-0979-08-01228-7
PII: S 0273-0979(08)01228-7
Received by editor(s): June 20, 2008
Published electronically: September 5, 2008
Additional Notes: The author is supported by NSF grant CCF-0649473 and a grant from the MacArthur Foundation, and also thanks David Hansen, Frank Merle, Robert Miura, Jeff Kimmel, and Jean-Claude Saut for helpful comments and corrections.
Article copyright: © Copyright 2008 American Mathematical Society