Polynomial properties on large symmetric association schemes

Abstract

In this paper we characterize "large" regular graphs using certain entries in the projection matrices onto the eigenspaces of the graph. As a corollary of this result, we show that "large" association schemes become P-polynomial association schemes. Our results are summarized as follows. Let G=(V,E) be a connected k-regular graph with d+1 distinct eigenvalues k=θ0>θ1>·s>θd. Since the diameter of G is at most d, we have the Moore bound \[ |V| ≤ M(k,d)=1+k Σi=0d-1(k-1)i. \] Note that if |V|> M(k,d-1) holds, the diameter of G is equal to d. Let Ei be the orthogonal projection matrix onto the eigenspace corresponding to θi. Let ∂(u,v) be the path distance of u,v ∈ V. Theorem. Assume |V|> M(k,d-1) holds. Then for x,y ∈ V with ∂(x,y)=d, the (x,y)-entry of Ei is equal to \[ -1|V|Πj=1,2,…,d, j i θ0-θjθi-θj. \] If a symmetric association scheme X=(X,\Ri\i=0d) has a relation Ri such that the graph (X,Ri) satisfies the above condition, then X is P-polynomial. Moreover we show the "dual" version of this theorem for spherical sets and Q-polynomial association schemes.