(3,1)*-choosability of planar graphs without adjacent short cycles

Abstract

A list assignment of a graph G is a function L that assigns a list L(v) of colors to each vertex v∈ V(G). An (L,d)*-coloring is a mapping π that assigns a color π(v)∈ L(v) to each vertex v∈ V(G) so that at most d neighbors of v receive color π(v). A graph G is said to be (k,d)*-choosable if it admits an (L,d)*-coloring for every list assignment L with |L(v)| k for all v∈ V(G). In 2001, Lih et al. LSWZ-01 proved that planar graphs without 4- and l-cycles are (3,1)*-choosable, where l∈ \5,6,7\. Later, Dong and Xu DX-09 proved that planar graphs without 4- and l-cycles are (3,1)*-choosable, where l∈ \8,9\. There exist planar graphs containing 4-cycles that are not (3,1)*-choosable (Crown, Crown and Woodall, 1986 CCW-86). This partly explains the fact that in all above known sufficient conditions for the (3,1)*-choosability of planar graphs the 4-cycles are completely forbidden. In this paper we allow 4-cycles nonadjacent to relatively short cycles. More precisely, we prove that every planar graph without 4-cycles adjacent to 3- and 4-cycles is (3,1)*-choosable. This is a common strengthening of all above mentioned results. Moreover as a consequence we give a partial answer to a question of Xu and Zhang XZ-07 and show that every planar graph without 4-cycles is (3,1)*-choosable.