The field of computational electromagnetics is moving towards the development of more efficient and accurate numerical methods for solving electromagnetic scattering problems. Researchers are exploring new formulations and preconditioning strategies to improve the performance of boundary element methods. Additionally, the Terahertz band is gaining attention for its potential applications in wireless communication and radar systems, with studies focusing on the modeling and analysis of radio frequency propagation in this domain. Noteworthy papers include: A Modified Dielectric Contrast based Integral Equation for 2D TE Scattering by Inhomogeneous Domains, which presents a novel approach for mitigating numerical challenges in traditional electric field-based vector formulations. A general framework for the OSRC-preconditioned EFIE in computational electromagnetics provides a comprehensive study of preconditioning strategies for the Electric Field Integral Equation.