The paper focuses on the Alon-Tarsi number, a parameter related to the exponents of monomials in a graph's polynomial, which provides an upper bound on the choice and online choice numbers of the graph. The author presents several theorems and results on the Alon-Tarsi number of different classes of regular graphs:
Complete multipartite graphs G = Kn,n: The Alon-Tarsi monomial is of the form c(x1x2...x2n)^(n/2), where c is a non-zero constant, and the Alon-Tarsi number is n/2 + 1.
Bipartite graphs G = Km,n with m < n, n even, and (m+n) | mn: The Alon-Tarsi number is (mn)/(m+n) + 1.
Regular bipartite graphs G with 2n vertices, n even, and even degree Δ: The Alon-Tarsi number is Δ/2.
Complete k-partite graphs Kn,n,...(k-times),...,n for even n: The Alon-Tarsi number is (k-1)n/2.
Line graphs of complete graphs G = Kn for n = 4k, k ∈ N: The Alon-Tarsi number is n-1, and the edge choosability of Kn is n-1.
Line graphs of 1-factorizable regular graphs G with order 4k: The Alon-Tarsi number is n-1, and the List Coloring Conjecture holds for these graphs.
The author also shows that the Alon-Tarsi number of the total graph T(G) of a 1-factorizable regular graph G with order 4k is at most Δ(G) + 2, where Δ(G) is the maximum degree of G.
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