Bounded Harmonic Functions on the Disk Denote by $\mathbb{D}$ the open unit disk in $\mathbb{R}^2$. Is it possible to find a _bounded_ harmonic function $u : \mathbb{D} \to \mathbb{R}$ that is not uniformly continuous...--prophetes.ai

Bounded Harmonic Functions on the Disk Denote by $\mathbb{D}$ the open unit disk in $\mathbb{R}^2$. Is it possible to find a _bounded_ harmonic function $u : \mathbb{D} \to \mathbb{R}$ that is not uniformly continuous? I tried using functions that oscillate near $\partial \mathbb{D}$ but was unable to get anything substantial.

For any bounded measurable function $f\in L^\infty(S^1)$, the Poisson integral $P[f]$ gives a bounded harmonic functions in $B_1$. This function is continuous (equivalently, uniformly continuous) if and only if $f$ itself is continuous.

Here you can find what the Poisson kernel is and how it's used to build harmonic functions in the ball.

Said otherwise, $f\mapsto P[f]$ is a linear isometry of $L^p(S^1)$ onto $h^p(B_1)$. We used the case $p=\infty$, where $h^\infty(B_1)$ stands for the the bounded harmonic functions in the ball. You can read more about it here.