Accessible parts of boundary for simply connected domains

Abstract: For a bounded simply connected domain Ω ⊂ R 2 , any point z ∈ Ω and any 0 < α < 1, we give a lower bound for the αdimensional Hausdorff content of the set of points in the boundary of Ω which can be joined to z by a John curve with a suitable John constant depending only on α, in terms of the distance of z to ∂Ω. In fact this set in the boundary contains the intersection ∂Ω z ∩ ∂Ω of the boundary of a John sub-domain Ω z of Ω, centered at z, with the boundary of Ω. This may be understood as a quantitative vers… Show more

“…|} for all z in the image of γ. A first result without assuming uniformity of the domain is proven by Koskela, Nandi, and Nicolau in [10] where they use techniques from complex analysis to show that any bounded simply connected domain in the complex plane satisfies (1) for all 0 < t < 1.…”

Accessible parts of the boundary for domains in metric measure spaces

“…|} for all z in the image of γ. A first result without assuming uniformity of the domain is proven by Koskela, Nandi, and Nicolau in [10] where they use techniques from complex analysis to show that any bounded simply connected domain in the complex plane satisfies (1) for all 0 < t < 1.…”

Accessible parts of the boundary for domains in metric measure spaces

“…A first result without assuming uniformity of the domain is proven by Koskela, Nandi, and Nicolau in [10] where they use techniques from complex analysis to show that any bounded simply connected domain in the complex plane satisfies (1) for all 0 < t < 1.…”

Accessible parts of the boundary for domains in metric measure spaces

“…Recently, Koskela, Nandi and Nicolau in [KNN18] showed (1.3) holds for simply connected planar domains Ω, when n = 2 and t < s = 1 using techniques from complex analysis.…”

Accessible parts of the boundary for domains with lower content regular complements