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Abstract

A two-terminal graph is a graph G equipped with two vertices in V(G) called terminals. Let T(n,m) be the set of two-terminal graphs on n vertices and m edges. Let G be in T(n,m) and let p be in [0,1]. The two-terminal reliability of G at p, denoted R_G(p), is the probability that G has a path joining its terminals after each of its edges is independently removed with probability 1 - p. We say G is a locally most reliable two-terminal graph (LMRTTG) if for each H in T(n,m) there exists a positive real number delta such that for every p in (0, delta) it holds that R_G(p) >= R_H(p). It is simple to prove that there exists a unique LMRTTG in T(n,m) when n >= 4 and 5 <= m <= 2n - 3. Gong and Lin [Discrete Appl. Math. 356 (2024), 393-402] further proved that there exists a unique LMRTTG in T(n,m) when n >= 6 and 2n - 3 <= m <= n(n - 1)/2, except for some pairs of integers n and m which satisfy that n >= 6 and (1/2)(n - 2)(n - 3) - (n - 2)/2 <= m - (2n - 3) <= (1/2)(n - 2)(n - 3) + (n - 2)/2. All cases unresolved in earlier works are covered here. In this article it is proved that in each set T(n,m) such that n >= 4 and 5 <= m <= n(n - 1)/2 there exists a unique LMRTTG, called G(n,m). A construction of G(n,m) is also given.