Preprint
Existence and analyticity of solutions of nonlinear parabolic model equations with singular data
19 Apr 2025
Abstract
We explore two approaches to proving existence and analyticity of solutions
to nonlinear parabolic differential equations. One of these methods works well
for more general nonlinearities, while the second method gives stronger results
when the nonlinearity is simpler. The first approach uses the exponentially
weighted Wiener algebra, and is related to prior work of Duchon and Robert for
vortex sheets. The second approach uses two norms, one with a supremum in time
and one with an integral in time, with the integral norm representing the
parabolic gain of regularity. As an example of the first approach we prove
analyticity of small solutions of a class of generalized one-dimensional
Kuramoto-Sivashinsky equations, which model the motion of flame fronts and
other phenomena. To illustrate the second approach, we prove existence and
analyticity of solutions of the dissipative Constantin-Lax-Majda equation
(which models vortex stretching), with and without added advection, with two
classes of rough data. The classes of data treated include both data in the
Wiener algebra with negative-power weights, as well as data in pseudomeasure
spaces with negative-power weights.
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Details
- Title
- Existence and analyticity of solutions of nonlinear parabolic model equations with singular data
- Creators
- David AmbroseMilton Lopes FilhoHelena Nussenzveig Lopes
- Resource Type
- Preprint
- Language
- English
- Academic Unit
- Mathematics
- Other Identifier
- 991022048904104721