Nonempty interior of configuration sets via microlocal partition optimization
Abstract
We prove new results of Mattila-Sj\"olin type, giving lower bounds on Hausdorff dimensions of thin sets ensuring that various -point configuration sets, generated by elements of , have nonempty interior. The dimensional thresholds in our previous work \cite{GIT20} were dictated by associating to a configuration function a family of generalized Radon transforms, and then optimizing -Sobolev estimates for them over all nontrivial bipartite partitions of the points. In the current work, we extend this by allowing the optimization to be done locally over the configuration's incidence relation, or even microlocally over the conormal bundle of the incidence relation. We use this approach to prove Mattila-Sj\"olin type results for (i) areas of subtriangles determined by quadrilaterals and pentagons in a set ; (ii) pairs of ratios of distances of 4-tuples in ; and (iii) similarity classes of triangles in , as well as to (iv) give a short proof of Palsson and Romero Acosta's result on congruence classes of triangles in .
Cite
@article{arxiv.2209.02084,
title = {Nonempty interior of configuration sets via microlocal partition optimization},
author = {Allan Greenleaf and Alex Iosevich and Krystal Taylor},
journal= {arXiv preprint arXiv:2209.02084},
year = {2024}
}
Comments
24 pages, 1 figure. Thm. 1.2 has been revised and a new result, Thm. 1.4 on similar triangles, has been added