English

Counterexamples to the Cubic Graph Domination Conjecture

Combinatorics 2007-05-23 v1

Abstract

Let v(G) and dom(G) denote the number of vertices and the domination number of a graph G, and let r (G) = dom(G)/v(G).Let[x]and]x[bethefloorandtheceilingofanumberx.In1996B.ReedconjecturedthatifGisacubicgraph,thendom(G)isatmost]v(G)/3[.In2005A.KostochkaandB.Stodolskydisprovedthisconjectureforcubicgraphsofconnectivityoneandmaintainedthattheconjecturemaystillbetruefor2connectedcubicgraphs.TheirminimumcounterexampleChas4bridges,v(C)=60,anddom(C)=21.InthispaperwedisproveReedsconjecturefor2connectedcubicgraphsbyprovidingasequence(R(k):k>2)ofcubicgraphsofconnectivitytwowithr(Rk)=1/3+1/60,wherev(R(k+1))>v(R(k))>v(R(3))=60fork>3,andsodom(R(3))=21. Let [x] and ]x[ be the floor and the ceiling of a number x. In 1996 B. Reed conjectured that if G is a cubic graph, then dom(G) is at most ]v(G)/3[. In 2005 A. Kostochka and B. Stodolsky disproved this conjecture for cubic graphs of connectivity one and maintained that the conjecture may still be true for 2-connected cubic graphs. Their minimum counterexample C has 4 bridges, v(C) = 60, anddom (C) = 21. In this paper we disprove Reed's conjecture for 2-connected cubic graphs by providing a sequence (R(k): k > 2) of cubic graphs of connectivity two with r(R_k) = 1/3 + 1/60, where v(R(k+1)) > v(R(k)) > v(R(3)) = 60 for k > 3, and so dom(R(3)) = 21 and dom(R(k)) - ]v(R(k))/3[ tends to infinity when k tends to infinity. We also provide a sequence of (L_s: s > 0) of cubic graphs of connectivity one with r(L(s)) > 1/3 + 1/60. The minimum counterexample L = L(1) in this sequence is `better' than C in the sense that L has 2 bridges while C has 4 bridges, v(L) = 54 < 60 = v(C), and r(L) = 1/3 + 1/54} > 1/3 + 1/60 = r(C). We also give a construction providing for every t in {0,1,2} infinitely many cubic cyclically 4-connected Hamiltonian graphs G(t) such that v(G(t)) = t mod 3, t in {0,2} implies dom(G(t)) = ]v(G(r))/3[, and t = 1 implies dom(G(t)) = [v(G(r))/3]. At last we suggest a stronger conjecture on domination in cubic 3-connected graphs.

Keywords

Cite

@article{arxiv.math/0607512,
  title  = {Counterexamples to the Cubic Graph Domination Conjecture},
  author = {Alexander Kelmans},
  journal= {arXiv preprint arXiv:math/0607512},
  year   = {2007}
}

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8 pages