The Lollipop Graph is Determined by its Spectrum

Boulet, Romain; Jouve, Bertrand

doi:10.37236/798

Cited by 50 publications

(22 citation statements)

References 7 publications

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“…Here, we describe a classic method to count the number of closed walks of a given length in a graph (see [2,13,14]). For a graph , ( ) stands for the number of closed walks of length in and ( ) stands for the number of subgraphs of which are isomorphic to graph .…”

Section: Resultsmentioning

confidence: 99%

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Laplacian Spectral Characterization of Some Unicyclic Graphs

Wang

Zhou

2014

Journal of Applied Mathematics

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Section: Resultsmentioning

confidence: 99%

“…Haemers et al [1] proved that ( ; , 1 ) is determined by its A-spectrum when is odd, and all ( ; , 1 ) are determined by their L-spectra. It is also known that ( ; , 1 ) is determined by its Aspectrum when is even [2]. Liu et al [3] proved that ( ; , 1 , 2 ) is determined by its L-spectrum.…”

Section: Introductionmentioning

confidence: 99%

Laplacian Spectral Characterization of Some Unicyclic Graphs

Wang

Zhou

2014

Journal of Applied Mathematics

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“…So far numerous examples of cospectral but non-isomorphic graphs have been constructed by interesting techniques such as Seidel switching, Godsil-McKay switching, Sunada or Schwenk method. For more information, one may see [10,28,29] have been reported to be determined by their spectra (DS, for short) (see [11,13,15,18,22,27,32,31] and the references cited in them). Recently Wei Wang and Cheng-Xian Xu have developed a new method in [32] to show that many graphs are determined by their spectrum and the spectrum of their complement.…”

Section: Introductionmentioning

confidence: 99%

On the spectral determinations of the connected multicone graphs

Abdian

Beineke

Oboudi

et al. 2020

AKCE International Journal of Graphs and Combinatorics

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In this study we investigate the spectra of the family of connected multicone graphs. A multicone graph is defined to be the join of a clique and a regular graph. Let r, t and s be natural numbers, and let Kr denote a complete graph on r vertices. It is proved that connected multicone graphs Kr ▽ sKt, a natural generalization of friendship graphs, are determined by their adjacency spectra as well as their Laplacian spectra. Also, we show that the complement of multicone graphs Kr ▽ sKt are determined by their adjacency spectra, where s = 2.

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“…But it is difficult to show that a given graph is DS. Up to now, only few graphs are proved to be DS [2][3][4][5][6][7][9][10][11][12][13]15]. Recently, some papers have been appeared that focus on some special graphs (oftenly under some conditions) and prove that these special graphs are DS or non-DS [2-4, 7, 9-13, 15].…”

Section: Introductionmentioning

confidence: 99%

On the spectral characterization of kite graphs

Sorgun¹,

Topcu²

2016

JACODESMATH

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The Kite graph, denoted by Kite p,q is obtained by appending a complete graph K p to a pendant vertex of a path P q . In this paper, firstly we show that no two non-isomorphic kite graphs are cospectral w.r.t adjacency matrix. Let G be a graph which is cospectral with Kite p,q and the clique number of G is denoted by w(G). Then, it is shown that w(G) ≥ p − 2q + 1. Also, we prove that Kite p,2 graphs are determined by their adjacency spectrum.

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The Lollipop Graph is Determined by its Spectrum

Cited by 50 publications

References 7 publications

Laplacian Spectral Characterization of Some Unicyclic Graphs

Laplacian Spectral Characterization of Some Unicyclic Graphs

On the spectral determinations of the connected multicone graphs

On the spectral characterization of kite graphs

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