More results on stack-sorting for set partitions
Abstract
Let a sock be an element of an ordered finite alphabet A and a sequence of these elements be a sock sequence. In 2023, Xia introduced a deterministic version of Defant and Kravitz's stack-sorting map by defining the and pattern-avoidance stack-sorting maps for sock sequences. Xia showed that the map is the only one that eventually sorts all set partitions; in this paper, we prove deeper results regarding and as a natural next step. We newly define two algorithms with time complexity that determine if any given sock sequence is in the image of or respectively. We also show that the maximum number of preimages that a sock sequence of length has grows at least exponentially under both the and maps. Additionally, we prove results regarding fertility numbers (introduced by Defant) in the context of set partitions and multiple-pattern-avoiding stacks.
Cite
@article{arxiv.2408.05377,
title = {More results on stack-sorting for set partitions},
author = {Samanyu Ganesh and Lanxuan Xia and Bole Ying},
journal= {arXiv preprint arXiv:2408.05377},
year = {2024}
}