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Type: | Artigo de periódico |

Title: | How to build a brick |

Author: | de Carvalho, MH Lucchesi, CL Murty, USR |

Abstract: | A graph is matching covered if it connected, has at least two vertices and each of its edges is contained in a perfect matching. A 3-connected graph G is a brick if, for any two vertices u and v of G, the graph G - {u, v) has a perfect matching. As shown by Lovasz [Matching structure and the matching lattice, J. Combin. Theory Ser. B 43 (1987) 187-222] every matching covered graph G may be decomposed, in an essentially unique manner, into bricks and bipartite graphs known as braces. The number of bricks resulting from this decomposition is denoted by b(G). The object of this paper is to present a recursive procedure for generating bricks. We define four simple operations that can be used to construct new bricks from given bricks. We show that all bricks may be generated from three basic bricks K-4, (C) over bar (6) and the Petersen graph by means of these four operations. In order to establish this, it turns out to be necessary to show that every brick G distinct from the three basic bricks has a thin edge, that is, an edge e such that (i) G - e is a matching covered graph with b(G - e) = 1 and (ii) for each barrier B of G - e, the graph G - e - B has precisely I B I - I isolated vertices, each of which has degree two in G - e. Improving upon a theorem proved in [M.H. de Carvalho, C.L. Lucchesi, U.S.R. Murty, On a conjecture of Lovasz concerning bricks, 1, The characteristic of a matching covered graph, J. Combin. Theory Ser. B 85 (2002) 94-436; M.H. de Carvalho, C.L. Lucchesi, U.S.R. Murty, On a conjecture of Lovasz concerning bricks, 11, Bricks of finite characteristic, J. Combin. Theory Ser. B 85 (2002) 137-180] we show here that every brick different from the three basic bricks has an edge that is thin. A cut of a matching covered graph G is separating if each of the two graphs obtained from G by shrinking the shores of the cut to single vertices is also matching covered. A brick is solid if it does not have any nontrivial separating cuts. Solid bricks have many interesting properties, but the complexity status of deciding whether a given brick is solid is not known. Here, by using our theorem on the existence of thin edges, we show that every simple planar solid brick is an odd wheel. (c) 2006 Elsevier B.V. All rights reserved. |

Subject: | matching covered graphs brick generation |

Country: | Holanda |

Editor: | Elsevier Science Bv |

Citation: | Discrete Mathematics. Elsevier Science Bv, v. 306, n. 19-20, n. 2383, n. 2410, 2006. |

Rights: | fechado |

Identifier DOI: | 10.1016/j.disc.2005.12.032 |

Date Issue: | 2006 |

Appears in Collections: | Unicamp - Artigos e Outros Documentos |

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File | Description | Size | Format | |
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WOS000241351300008.pdf | 410.97 kB | Adobe PDF | View/Open |

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