Bahman Ahmadi scite author profile

Abstract. The minimum number of distinct eigenvalues, taken over all real symmetric matrices compatible with a given graph G, is denoted by q(G). Using other parameters related to G, bounds for q(G) are proven and then applied to deduce further properties of q(G). It is shown that there is a great number of graphs G for which q(G) = 2. For some families of graphs, such as the join of a graph with itself, complete bipartite graphs, and cycles, this minimum value is obtained. Moreover, examples of graphs G are provided to show that adding and deleting edges or vertices can dramatically change the value of q(G). Finally, the set of graphs G with q(G) near the number of vertices is shown to be a subset of known families of graphs with small maximum multiplicity.

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The Erdős-Ko-Rado Property for Some 2-Transitive Groups

Ahmadi

Meagher

2015

Ann. Comb.

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A subset S of a group G ≤ Sym(n) is intersecting if for any pair of permutations π, σ ∈ S there is an i ∈ {1, 2, . . . , n} such that π(i) = σ (i). It has been shown, using an algebraic approach, that the largest intersecting sets in each of Sym(n), Alt(n), and PGL(2, q) are exactly the cosets of the point-stabilizers. In this paper, we show how this approach can be applied more generally to many 2-transitive groups. We then apply this method to the Mathieu groups and to all 2-transitive groups with degree no more than 20.

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Number of distinguishing colorings and partitions

Ahmadi

Alinaghipour

Shekarriz

2020

Discrete Mathematics

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A new proof for the Erdős–Ko–Rado theorem for the alternating group

Ahmadi

Meagher

2014

Discrete Mathematics

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Perfect quantum state transfer on the Johnson scheme

Ahmadi

Haghighi

Mokhtar

2020

Linear Algebra and its Applications

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For any graph X with the adjacency matrix A, the transition matrix of the continuous-time quantum walk at time t is given by the matrix-valued function H X (t) = e itA . We say that there is perfect state transfer in X from the vertex u to the vertex v at time τ if |H X (τ ) u,v | = 1. It is an important problem to determine whether perfect state transfers can happen on a given family of graphs. In this paper we characterize all the graphs in the Johnson scheme which have this property. Indeed, we show that the Kneser graph K(2k, k) is the only class in the scheme which admits perfect state transfers. We also show that, under some conditions, some of the unions of the graphs in the Johnson scheme admit perfect state transfer.

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Bahman Ahmadi

Minimum number of distinct eigenvalues of graphs

The Erdős-Ko-Rado Property for Some 2-Transitive Groups

Number of distinguishing colorings and partitions

A new proof for the Erdős–Ko–Rado theorem for the alternating group

Perfect quantum state transfer on the Johnson scheme

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