An official website of the United States government
Abstract In this paper we prove a higher dimensional analogue of Carleson’s$$\varepsilon ^{2}$$ conjecture. Given two arbitrary disjoint Borel sets$$\Omega ^{+},\Omega ^{-}\subset \mathbb{R}^{n+1}$$ , and$$x\in \mathbb{R}^{n+1}$$ ,$$r>0$$ , we denote$$ \varepsilon _{n}(x,r) := \frac{1}{r^{n}}\, \inf _{H^{+}} \mathcal{H}^{n} \left ( ((\partial B(x,r)\cap H^{+}) \setminus \Omega ^{+}) \cup (( \partial B(x,r)\cap H^{-}) \setminus \Omega ^{-})\right ), $$ where the infimum is taken over all open affine half-spaces$$H^{+}$$ such that$$x \in \partial H^{+}$$ and we define$$H^{-}= \mathbb{R}^{n+1} \setminus \overline{H^{+}}$$ . Our first main result asserts that the set of points$$x\in \mathbb{R}^{n+1}$$ where$$ \int _{0}^{1} \varepsilon _{n}(x,r)^{2} \, \frac{dr}{r}< \infty $$ is$$n$$ -rectifiable. For our second main result we assume that$$\Omega ^{+}$$ ,$$\Omega ^{-}$$ are open and that$$\Omega ^{+}\cup \Omega ^{-}$$ satisfies the capacity density condition. For each$$x \in \partial \Omega ^{+} \cup \partial \Omega ^{-}$$ and$$r>0$$ , we denote by$$\alpha ^{\pm }(x,r)$$ the characteristic constant of the (spherical) open sets$$\Omega ^{\pm }\cap \partial B(x,r)$$ . We show that, up to a set of$$\mathcal{H}^{n}$$ measure zero,$$x$$ is a tangent point for both$$\partial \Omega ^{+}$$ and$$\partial \Omega ^{-}$$ if and only if$$ \int _{0}^{1} \min (1,\alpha ^{+}(x,r) + \alpha ^{-}(x,r) -2) \frac{dr}{r} < \infty . $$ The first result is new even in the plane and the second one improves and extends to higher dimensions the$$\varepsilon ^{2}$$ conjecture of Carleson.
more »
« less
Free, publicly-accessible full text available July 1, 2026
