Long-eared digraphs

Abstract

Let H be a subdigraph of a digraph D. An ear of H in D is a path or a cycle in D whose ends lie in H but whose internal vertices do not. An ear decomposition of a strong digraph D is a nested sequence (D0,D1,… , Dk) of strong subdigraphs of D such that: 1) D0 is a cycle, 2) Di+1 = Di Pi, where Pi is an ear of Di in D, for every i∈ \0,1,…,k-1\, and 3) Dk=D. In this work, the LEi is defined as the family of strong digraphs, with an ear decomposition such that every ear has a length of at least i≥ 1. It is proved that Seymour's second Neighborhood Conjecture and the Laborde, Payan, and Soung conjecture, are true in the family LE2, and the Small quasi-kernel conjecture is true for digraphs in LE3. Also, some sufficient conditions for a strong nonseparable digraph in LE2 with a kernel to imply that the previous (following) subdigraph in the ear decomposition has a kernel too, are presented. It is proved that digraphs in LE2 have a chromatic number at most 3, and a dichromatic number 2 or 3. Finally, the oriented chromatic number of asymmetrical digraphs in LE3 is bounded by 6, and it is shown that the oriented chromatic number of asymmetrical digraphs in LE2 is not bounded.

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