Principal Minors of Hermitian Laplacian Matrix of Directed Graphs and Their Connection to Directed Graph Substructures

This paper explores the algebraic characterization of directed graph substructures through principal minors of the Hermitian Laplacian matrix. By generalizing Bapat et al.'s nonsingular substructure theory and by defining substructures as vertex-edge pairs $(V',E')$ which allows edges to connect vertices outside $V'$, we establish a link between the principle minors and the topological properties of key substructures such as rootless trees and unicyclic graphs. Using the Cauchy-Binet formula, we decompose principal minors into sums of determinants of regular substructures. Specifically, we investigate how these algebraic invariants encode information about unicyclic substructures and their properties, contributing to the broader understanding of graph structures through the lens of Hermitian Laplacian matrix of algebraic graph theory.