Sparse Kneser graphs are Hamiltonian
Combinatorics
2021-08-11 v3 Discrete Mathematics
Abstract
For integers and , the Kneser graph is the graph whose vertices are the -element subsets of and whose edges connect pairs of subsets that are disjoint. The Kneser graphs of the form are also known as the odd graphs. We settle an old problem due to Meredith, Lloyd, and Biggs from the 1970s, proving that for every , the odd graph has a Hamilton cycle. This and a known conditional result due to Johnson imply that all Kneser graphs of the form with and have a Hamilton cycle. We also prove that has at least distinct Hamilton cycles for . Our proofs are based on a reduction of the Hamiltonicity problem in the odd graph to the problem of finding a spanning tree in a suitably defined hypergraph on Dyck words.
Keywords
Cite
@article{arxiv.1711.01636,
title = {Sparse Kneser graphs are Hamiltonian},
author = {Torsten Mütze and Jerri Nummenpalo and Bartosz Walczak},
journal= {arXiv preprint arXiv:1711.01636},
year = {2021}
}