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Questions related to the spectrum of graphs, defined using one of the possible variants of the discrete Laplace operator or Laplacian matrix. See https://en.wikipedia.org/wiki/Discrete_Laplace_operator

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Simple Laplacian versus simple adjacency matrix eigenvalues

According to my calculations in sage, 13 of the 156 graphs on six vertices have simple Laplacian eigenvalues but repeated adjacency eigenvalues. The first of the 13 is a tree with adjacency matrix: $$ …
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4 votes
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Is there a closed form for the characteristic polynomial of the graph cycle (of n edges and...

If I use $\phi$ for characteristic polynomial, then $$ \phi(C_n,t) = \phi(P_n,t) - \phi(P_{n-2},t) - 2. $$ This follows from the formulas in Section 4.1 of "Algebraic Combinatorics" by yours truly, s …
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5 votes
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Characteristic polynomial of hypercube graph

View the vertices as elements of $\mathbb{Z}^n$. If $a\in\mathbb{Z}^n$, define a function $f_a$ on the vertices by $$ f_a(x) = (-1)^{a^Tx}. $$ This function is an eigenvectors and if $a$ has weight …
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5 votes

signing a strongly regular graph

Suppose we have a set of unit vectors $x_1,\ldots,x_m$ in $\mathbb{R}^d$ such that (for $i=j$) either $x_i^Tx_j=0$ or $|x_i^Tx_j|=a$. The Gram matrix of these vectors can be written as $I+aS$, where $ …
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3 votes

Graph Laplacian simple eigenvalues

For a start, there's the complements of the paths. (If the Laplacian eigenvalues of a graph are all simple, then so are the eigenvalues of its complement.) Most regular graphs have only simple eigenva …
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1 vote

Reflexive (hyperbolic) graphs

I do not recall seeing such a characterization. However Neumaier has looked at some related stuff. In A. Neumaier, J. J. Seidel "Discrete hyperbolic geometry" they consider graphs where the second la …
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3 votes
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The cliques of cospectral graphs

Let $X$ and $Y$ be two cospectral graphs with maximum clique size $a$ and $b$ respectively. Then their $k$-fold strong powers $X(k)$ and $Y(k)$ are cospectral and the maximum size of a clique is $a^k$ …
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6 votes
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spectrum and degree sequence

No. One simple class of examples are Latin square graphs. If $L$ is an $n\times n$ Latin square with entries from $\{1,\ldots,n\}$, the vertices of Latin square graph are the $n^2$ triples; two triple …
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2 votes

colored graph characteristic polynomial

One difficulty here is that you are asking a number of questions, none of which have short answers. It follows from results in Chapter 5 of my "Algebraic Combinatorics" that, if you add a loop of wei …
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3 votes

Connection between graph spectra and graph homomorphisms

There does not seem to be a large overlap; the basic problem is that homomorphisms generally destroy nearly all spectral information. There are important exceptions though. Thus in https://arxiv.org/a …
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2 votes
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Graph of Grassmannian

These are graphs in the Grassmann scheme, and are the $q$-analogs of the Kneser graphs. A clique will be a collection of subspaces of dimension $k$, any two of which have non-trivial intersection. An …
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2 votes
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a variation on the theory of equitable partitions for graphs

The column space of $I-P$ is $A$-invariant and therefore there is a matrix $D$ such that $A(I-P)=(I-P)D$. The difficulty is that $D$ will generally not be non-negative and so it it less useful to inte …
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3 votes
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are there pairs of combinatorial graphs that are both isospectral and have the same matroid?

Choose a graph $X$ with vertices $u$ and $v$ such that $X\backslash u$ and $X\backslash v$ are cospectral. (In this case I say that $u$ and $v$ are cospectral vertices.) Assume that there is no automo …
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3 votes

Spectrum of composition of graphs( lexicographic product)

If graphs $X$ and $Y$ have adjacency matrices $A$ and $B$ respectively, then the composition of $X$ around $Y$ has adjacency matrix $$ A\otimes J + I\otimes B $$ Assume $B$ is $k$-regular. Then the …
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9 votes
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Complex Eigenvalues of Directed Graphs

Let $D$ be the Paley tournament on seven vertices. Its vertices are the integers mod seven and there is an arc from $i$ to $j$ is $j-i$ is a non-zero square mod seven. The characteristic polynomial of …
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