Locally Equienergetic Graphs

Abstract

For a given graph \( G \), let \( G(j) \) denote the graph obtained by the deletion of vertex \( vj \) from \( G \). The difference \( E(G) - E(G(j)) \) quantifies the change in the energy of \( G \) upon the removal of \( vj \), termed as the local energy of \( G \) at vertex vj, as defined by Espinal and Rada in 2024. The local energy of G at vertex v is denoted by \(EG(v)\). The local energy of the graph \( G \), therefore, is the summation of these vertex-specific local energies across all vertices in \( V(G) \), expressed by \( e(G) = Σ EG(v) \). Two graphs of the same order are defined as locally equienergetic if they have identical local energy. In this paper, we have investigated several pairs of locally equienergetic graphs.