# The general spectral radius and majorization theorem of $t$-cone graphs   with given degree sequences

**Authors:** Yufei Huang, Muhuo Liu

arXiv: 1908.06224 · 2019-08-20

## TL;DR

This paper investigates the maximum spectral radius of a generalized matrix for specific classes of $t$-cone graphs with given degree sequences, providing characterizations and inequalities related to majorization.

## Contribution

It characterizes the unique $	heta_	ext{max}$-maximal graphs in $t$-cone $c$-cyclic classes and establishes spectral radius inequalities based on degree sequence majorization.

## Key findings

- Characterization of $	heta_	ext{max}$-maximal graphs for $c=0,1,2$
- Spectral radius increases with degree sequence majorization
- Proof of inequalities relating spectral radii for different degree sequences

## Abstract

The general spectral radius of a graph $G$, denoted by $\Theta(G,\alpha)$, is the maximal eigenvalue of $M_{\alpha}(G)=A(G)+\alpha D(G)$ $(\alpha\geq 0)$, where $A(G)$ and $D(G)$ are the adjacency matrix and the diagonal matrix of vertex degrees of $G$, respectively. A graph $G$ is called $\Theta_\alpha$-maximal in a class of connected simple graphs $\mathcal {G}$ if $\Theta(G,\alpha)$ is maximal among all graphs of $\mathcal {G}$. A $t$-cone $c$-cyclic graph is the join of a complete graph $K_t$ and a $c$-cyclic connected simple graph. Let $\pi=\big(d_1,d_2,\ldots,d_n\big)$ and $\pi'=\big(d'_1,d'_2,\ldots,d'_n\big)$ be two non-increasing degree sequences of $t$-cone $c$-cyclic graphs with $n$ vertices. We say $\pi$ is strictly majorized by $\pi'$, denoted by $\pi \lhd \pi'$, if $\pi\neq \pi'$, $\sum_{i=1}^n d_i=\sum_{i=1}^n d_i'$, and $\sum_{i=1}^k d_i\leq \sum_{i=1}^k d_i'$ for $k=1,2,\ldots,n-1$. Denote by $\Gamma(\pi,t;c)$ the class of $t$-cone $c$-cyclic graphs with $\pi$ as its degree sequence. In this paper, we determine some properties of $\Theta_\alpha$-maximal graphs of $\Gamma(\pi,t;c)$ and characterize the unique $\Theta_\alpha$-maximal graph of $\Gamma(\pi,t;0)$ \big(resp. $\Gamma(\pi,t;1)$ and $\Gamma(\pi,t;2)$\big). Moreover, we prove that if $\pi \lhd \pi'$, $G$ and $G'$ are the $\Theta_\alpha$-maximal graphs of $\Gamma(\pi,t;c)$ and $\Gamma(\pi',t;c)$ respectively, then $\Theta(G,\alpha)<\Theta(G',\alpha)$ for $c\in \big\{0,1\big\}$, and we also consider the similar result for $c=2$.

## Full text

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## References

20 references — full list in the complete paper: https://tomesphere.com/paper/1908.06224/full.md

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Source: https://tomesphere.com/paper/1908.06224