The smallest nontrivial snarks of oddness 4

Abstract: The oddness of a cubic graph is the smallest number of odd circuits in a 2-factor of the graph. This invariant is widely considered to be one of the most important measures of uncolourability of cubic graphs and as such has been repeatedly reoccurring in numerous investigations of problems and conjectures surrounding snarks (connected cubic graphs admitting no proper 3-edge-colouring). In [Ars Math. Contemp. 16 (2019), 277-298] we have proved that the smallest number of vertices of a snark with cyclic connect… Show more

“…In fact, we prove the following stronger and more detailed result which will also be needed in our next paper [23].…”

“…The most symmetric of them is shown in Figure 4. We will describe and analyse these 31 snarks in the sequel of this paper [23], where we also prove that they constitute a complete list of all snarks with oddness at least 4, cyclic connectivity 4, and minimum number of vertices. As we have already mentioned in Section 1 Introduction, Theorem 1.1 does not yet determine the smallest order of a nontrivial snark with oddness 4, because there might exist snarks with oddness at least 4 of order 38, 40, or 42 with cyclic connectivity greater than 4.…”

“…The most symmetric of them is shown in Figure 4. We will describe and analyse these 31 snarks in the sequel of this paper [23], where we also prove that they constitute a complete list of all snarks with oddness at least 4, cyclic connectivity 4, and minimum number of vertices. are not known, however the well-known conjecture of Jaeger and Swart [31] that there are no cyclically 7-edge-connected snarks would imply that these values are not defined.…”

“…We will continue our investigation of the smallest snarks with oddness at least 4 and cyclic connectivity 4 in the sequel of this paper [23]. We will display a set of 31 such snarks, analyse their properties, and prove that they constitute the complete set of snarks with oddness at least 4 and cyclic connectivity 4 on 44 vertices.…”

Smallest snarks with oddness 4 and cyclic connectivity 4 have order 44

“…In fact, we prove the following stronger and more detailed result which will also be needed in our next paper [23].…”

“…The most symmetric of them is shown in Figure 4. We will describe and analyse these 31 snarks in the sequel of this paper [23], where we also prove that they constitute a complete list of all snarks with oddness at least 4, cyclic connectivity 4, and minimum number of vertices. As we have already mentioned in Section 1 Introduction, Theorem 1.1 does not yet determine the smallest order of a nontrivial snark with oddness 4, because there might exist snarks with oddness at least 4 of order 38, 40, or 42 with cyclic connectivity greater than 4.…”

“…The most symmetric of them is shown in Figure 4. We will describe and analyse these 31 snarks in the sequel of this paper [23], where we also prove that they constitute a complete list of all snarks with oddness at least 4, cyclic connectivity 4, and minimum number of vertices. are not known, however the well-known conjecture of Jaeger and Swart [31] that there are no cyclically 7-edge-connected snarks would imply that these values are not defined.…”

“…We will continue our investigation of the smallest snarks with oddness at least 4 and cyclic connectivity 4 in the sequel of this paper [23]. We will display a set of 31 such snarks, analyse their properties, and prove that they constitute the complete set of snarks with oddness at least 4 and cyclic connectivity 4 on 44 vertices.…”

Smallest snarks with oddness 4 and cyclic connectivity 4 have order 44

“…Using this result they proved a lower bound on the number of removable edges in a cyclically 4-connected cubic graph [1]. Later, Goedgebeur et al constructed and classified all snarks with cyclic connectivity 4 and oddness 4 up to order 44 [2,3].…”

Decomposition of cubic graphs with cyclic connectivity 5

Decomposing Cubic Graphs with Cyclic Connectivity 5