English

Small data global existence and decay for two dimensional wave maps

Analysis of PDEs 2019-10-03 v2

Abstract

We prove the small-data global existence for the wave-map equation on R1,2\mathbb{R}^{1,2} using a variant of the vector field method. The main innovations lie in the introduction of two new linear estimates. First is the control of the dispersive decay of the solution ϕ\phi itself (as opposed to its derivatives), via a logarithmic weighted Hardy inequality. This control has not been previously established using purely physical space methods in two spatial dimensions. Second is a point-wise decay estimate for a twisted derivative of ϕ\phi associated to the Morawetz KK multiplier, that cannot be reduced to point-wise decay estimates associated to the standard commutator vector fields. As the linear theory is largely similar between dimensions, and in view of the novelty of the second innovation even in higher dimensions, we include a discussion of the method for R1,d\mathbb{R}^{1,d} in general. Both linear estimates are used crucially in our study: the control of the wave-map equation in the small data regime necessarily requires understanding the dispersive behavior of the bare solution ϕ\phi itself, by virtue of the equation it satisfies. The point-wise decay for the twisted derivative allows us to avoid certain top-order logarithmic energy growths; this is indispensable for extending our argument from the case of compactly supported initial data (to which our methods are most naturally adapted) to initial data that are strongly localized but not necessarily of compact support, via an iterative construction.

Keywords

Cite

@article{arxiv.1712.07684,
  title  = {Small data global existence and decay for two dimensional wave maps},
  author = {Willie Wai Yeung Wong},
  journal= {arXiv preprint arXiv:1712.07684},
  year   = {2019}
}

Comments

v2: edits to address referee comments. Significant changes: estimate of twisted derivative in (4.9), which allows removal of log energy growth in Sect 6. This enables Sects 7+8 (new) proving (a) nonlinear stability for generic, large, dispersive solutions and (b) extension to strongly localized (but not necessarily compactly supported) initial data

R2 v1 2026-06-22T23:25:10.236Z