Local bounds for nonlinear higher-order vector fields for the p-Laplace equation

We study higher regularity for weak solutions of the $p$-Laplace equation $-Δ_p u = f$ in a domain $Ω\subset \mathbb{R}^n$ for $p$ sufficiently close to 2. For $m \ge 3$, assuming that $f$ satisfies suitable Sobolev and Hölder regularity conditions, we prove that the nonlinear quantity $|\nabla u|^{m-2}\nabla u$ belongs to $W^{m-1,q}{loc}(Ω)$, and that $|\nabla u|^{m-2} D^2u$ belongs to $W^{m-2,q}{loc}(Ω)$, for any $q\ge 2$. Furthermore, we obtain uniform $L^\infty$ bounds for the weighted $(m-1)$-th derivatives of $|\nabla u|^{m-2}\nabla u$ and the weighted $(m-2)$-th derivatives of $|\nabla u|^{m-2} D^2u$, providing quantitative control even near critical points of $\nabla u$.

💡 Research Summary

The paper investigates higher‑order regularity for weak solutions of the p‑Laplace equation
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