Sharp Hausdorff content estimates for accessible boundaries of domains in metric measure spaces of controlled geometry
Abstract
We give a sharp Hausdorff content estimate for the size of the accessible boundary of any domain in a metric measure space of controlled geometry, i.e., a complete metric space equipped with a doubling measure supporting a p-Poincar\'e inequality for a fixed 1 p<∞. This answers a question posed by Jonas Azzam. In the process, we extend the result to every doubling gauge in metric measure spaces which satisfies a codimension one bound.
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