Energy of a polynomial and the Coulson integral formula
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Publication:607596
DOI10.1007/s10910-010-9725-zzbMath1223.92070OpenAlexW2154152424MaRDI QIDQ607596
Miodrag S. Mateljević, Ivan Gutman, Vladimir Božin
Publication date: 22 November 2010
Published in: Journal of Mathematical Chemistry (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s10910-010-9725-z
Applications of graph theory (05C90) Molecular structure (graph-theoretic methods, methods of differential topology, etc.) (92E10)
Related Items (19)
Unicyclic signed graphs with minimal energy ⋮ Total energy of signed digraphs ⋮ On the integral weighted oriented unicyclic graphs with minimum skew energy ⋮ The normalized incidence energy of a graph ⋮ Coulson-type integral formulas for the general energy of polynomials with real roots ⋮ Complex adjacency matrix and energy of digraphs ⋮ The Laplacian incidence energy of graphs ⋮ Two new edge grafting operations on the energy of unicyclic graphs and their applications ⋮ Hermitian-adjacency matrices and Hermitian energies of mixed graphs ⋮ Coulson-type integral formulas for the sum of powers of absolute values of roots of polynomials ⋮ Bicyclic digraphs with maximal energy ⋮ Tricyclic oriented graphs with maximal skew energy ⋮ Oriented unicyclic graphs with the first \(\lfloor\frac {n-9}{2}\rfloor\) largest skew energies ⋮ Bicyclic signed digraphs with maximal energy ⋮ Iota energy of weighted digraphs ⋮ Coxeter energy of graphs ⋮ Cycle energy and its size dependence ⋮ Energy of a semigraph ⋮ Lower bounds of Nikiforov's energy over digraphs
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