$ON DISTANCE–REGULAR GRAPHS OF DIAMETER 3 WITH EIGENVALUE $\theta=1$$

ON DISTANCE–REGULAR GRAPHS OF DIAMETER 3 WITH EIGENVALUE $\theta=1$

For a distance-regular graph $\Gamma$ of diameter 3, the graph $\Gamma_i$ can be strongly regular for $i=2$ or 3. J.Kulen and co-authors found the parameters of a strongly regular graph $\Gamma_2$ given the intersection array of the graph $\Gamma$ (independently, the parameters were found...

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Bibliographic Details
Main Authors:	Alexander A. Makhnev, Ivan N. Belousov, Konstantin S. Efimov
Format:	Article
Language:	English
Published:	Ural Branch of the Russian Academy of Sciences and Ural Federal University named after the first President of Russia B.N.Yeltsin, Krasovskii Institute of Mathematics and Mechanics 2022-12-01
Series:	Ural Mathematical Journal
Subjects:	strongly regular graph, distance-regular graph, intersection array
Online Access:	https://umjuran.ru/index.php/umj/article/view/463
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Summary:	For a distance-regular graph $\Gamma$ of diameter 3, the graph $\Gamma_i$ can be strongly regular for $i=2$ or 3. J.Kulen and co-authors found the parameters of a strongly regular graph $\Gamma_2$ given the intersection array of the graph $\Gamma$ (independently, the parameters were found by A.A. Makhnev and D.V.Paduchikh). In this case, $\Gamma$ has an eigenvalue $a_2-c_3$. In this paper, we study graphs $\Gamma$ with strongly regular graph $\Gamma_2$ and eigenvalue $\theta=1$. In particular, we prove that, for a $Q$-polynomial graph from a series of graphs with intersection arrays $\{2c_3+a_1+1,2c_3,c_3+a_1-c_2;1,c_2,c_3\}$, the equality $c_3=4 (t^2+t)/(4t+4-c_2^2)$ holds. Moreover, for $t\le 100000$, there is a unique feasible intersection array $\{9,6,3;1,2,3\}$ corresponding to the Hamming (or Doob) graph $H(3,4)$. In addition, we found parametrizations of intersection arrays of graphs with $\theta_2=1$ and $\theta_3=a_2-c_3$.
ISSN:	2414-3952

Summary:	For a distance-regular graph \(\Gamma\) of diameter 3, the graph \(\Gamma_i\) can be strongly regular for \(i=2\) or 3. J.Kulen and co-authors found the parameters of a strongly regular graph \(\Gamma_2\) given the intersection array of the graph \(\Gamma\) (independently, the parameters were found by A.A. Makhnev and D.V.Paduchikh). In this case, \(\Gamma\) has an eigenvalue \(a_2-c_3\). In this paper, we study graphs \(\Gamma\) with strongly regular graph \(\Gamma_2\) and eigenvalue \(\theta=1\). In particular, we prove that, for a \(Q\)-polynomial graph from a series of graphs with intersection arrays \(\{2c_3+a_1+1,2c_3,c_3+a_1-c_2;1,c_2,c_3\}\), the equality \(c_3=4 (t^2+t)/(4t+4-c_2^2)\) holds. Moreover, for \(t\le 100000\), there is a unique feasible intersection array \(\{9,6,3;1,2,3\}\) corresponding to the Hamming (or Doob) graph \(H(3,4)\). In addition, we found parametrizations of intersection arrays of graphs with \(\theta_2=1\) and \(\theta_3=a_2-c_3\).
ISSN:	2414-3952

ON DISTANCE–REGULAR GRAPHS OF DIAMETER 3 WITH EIGENVALUE \(\theta=1\)

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