Shunkai Mao, Peng Qu
Published 2025-02-11Version 1
We consider the Cauchy problem for the system of elastodynamic equations in two dimensions. Specifically, we focus on materials characterized by a null condition imposed on the quadratic part of the nonlinearity. We can construct non-zero weak solutions $u \in C^1([0, T] \times \mathbb{T}^2)$ that emanate from zero initial data. The proof relies on the convex integration scheme. By exploiting the characteristic double wave speeds of the equations, we construct a new class of building blocks. This work extends the application of convex integration techniques to hyperbolic systems with a null condition and reveals the rich solution structure in nonlinear elastodynamics.
Global existence and pointwise decay for the null condition
Stability of a class of semilinear waves in $2+1$ dimension under null condition
Space-Time resonances and the null condition for (first order) systems of wave equations
![QR code for arXiv:2502.07521 [math.AP]](http://oss.arxitics.com/images/favicon.svg)