Unbounded degree spanning hypertrees in Dirac hypergraphs

Abstract

In 2001, Koml\'os, S\'ark\"ozy, and Szemer\'edi proved that every sufficiently large n-vertex graph with minimum degree at least (1/2+γ)n contains all spanning trees with maximum degree at most cn/ n. We extend this result to hypergraphs by considering loose hypertrees, which are linear hypergraphs obtained by successively adding edges that share exactly one vertex with a previous edge. For all k > ≥ 2, we determine asymptotically optimal -degree conditions that ensure the existence of all rooted spanning loose hypertrees, without any degree condition, in terms of the (-1)-degree threshold for the existence of a perfect matching in (k-1)-graphs. As a corollary, we also asymptotically determine the -degree threshold for the existence of bounded degree spanning loose hypertrees in k-graphs for k/2 < < k, confirming a conjecture of Pehova and Petrova in this range. In our proof, we avoid the use of Szemer\'edi's regularity lemma.