Multi-switch: A tool for finding potential edge-disjoint 1-factors
Let n be even, let π = (d1, ... , dn) be a graphic degree sequence, and let π - k = (d1-k, ... , dn-k) also be graphic. Kundu proved that π has a realization G containing a k-factor, or k-regular graph. Another way to state the conclusion of Kundu's theorem is that π potentially contains a k...
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Format: | EJournal Article |
Published: |
GTA Research Group, Univ. Newcastle, Indonesian Combinatorics Society and ITB,
2021-04-15.
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Online Access: | Get Fulltext |
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Summary: | Let n be even, let π = (d1, ... , dn) be a graphic degree sequence, and let π - k = (d1-k, ... , dn-k) also be graphic. Kundu proved that π has a realization G containing a k-factor, or k-regular graph. Another way to state the conclusion of Kundu's theorem is that π potentially contains a k-factor. Busch, Ferrara, Hartke, Jacobsen, Kaul, and West conjectured that more was true: π potentially contains k edge-disjoint 1-factors. Along these lines, they proved π would potentially contain edge-disjoint copies of a (k-2)-factor and two 1-factors. We follow the methods of Busch et al. but introduce a new tool which we call a multi-switch. Using this new idea, we prove that π potentially has edge-disjoint copies of a (k-4)-factor and four 1-factors. We also prove that π potentially has (⌊k/2⌋+2) edge-disjoint 1-factors, but in this case cannot prove the existence of a large regular graph. |
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Item Description: | https://www.ejgta.org/index.php/ejgta/article/view/365 |