Spectral Tur\'an-type problems on sparse spanning graphs

Abstract

Let F be a graph and (n, F) be the class of n-vertex graphs which attain the maximum spectral radius and contain no F as a subgraph. Let (n, F) be the family of n-vertex graphs which contain maximum number of edges and no F as a subgraph. It is a fundamental problem in spectral extremal graph theory to characterize all graphs F such that (n, F)⊂eq (n, F) when n is sufficiently large. Establishing the conjecture of Cioaba, Desai and Tait [European J. Combin., 2022], Wang, Kang, and Xue [J. Combin. Theory Ser. B, 2023] prove that: for any graph F such that the graphs in (n, F) are Tur\'an graphs plus O(1) edges, (n, F)⊂eq (n, F) for sufficiently large n. In this paper, we prove that (n, F)⊂eq (n, F) for sufficiently large n, where F is an n-vertex graph with no isolated vertices and (F) ≤ n/40. We also prove a signless Laplacian spectral radius version of the above theorem. These results give new contribution to the open problem mentioned above, and can be seen as spectral analogs of a theorem of Alon and Yuster [J. Combin. Theory Ser. B, 2013]. Furthermore, as immediate corollaries, we have tight spectral conditions for the existence of several classes of special graphs, including clique-factors, k-th power of Hamilton cycles and k-factors in graphs. The first special class of graphs gives a positive answer to a problem of Feng, and the second one extends a previous result of Yan et al.