Ryan Hynd
Published 2014-10-29Version 1
We study solutions of the system of PDE $D\psi({\bf v}_t)=\text{div}DF(D{\bf v})$, where $\psi$ and $F$ are convex functions. This type of system arises in various physical models for phase transitions. We establish compactness properties of solutions that allow us to verify partial regularity when $F$ is quadratic and characterize the large time limits of weak solutions. Special consideration is also given to systems that are homogeneous and their connections with nonlinear eigenvalue problems. While the uniqueness of weak solutions of such systems of PDE remains an open problem, we show scalar equations always have a preferred solution that is also unique as a viscosity solution.
Boundedness of weak solutions of degenerate quasilinear equations with rough coefficients
On the energy conservation by weak solutions of the relativistic Vlasov-Maxwell system
Partial regularity for type two doubly nonlinear parabolic systems
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